KR102490581B1 - Quantum energy generator equipped with discharge function for gas, liquid and fluid treatment - Google Patents

Abstract

Disclosed is a quantum energy generating device generator with a built-in discharge function for gas, liquid, and fluid processing. The present invention is sucked and pressurized by a fan to a device composed of an additive supply unit, an electric dust collector, a quantum energy generator, a heat exchange unit, a quantum energy irradiation unit, and a control panel, and external air introduced into the device or semiconductor, LED TV, PCB, home appliances Product manufacturing facilities, petroleum refining facilities, chemical fibers, textile dyeing and processing facilities, livestock facilities, slaughtering processing facilities, marine products processing facilities, basic organic compound manufacturing facilities, process exhaust gases from food waste treatment facilities and exhaust gases from wastewater treatment plants, engines (generators) , ships, automobiles) and exhaust gases from combustion facilities (boilers, incinerators, heat treatment furnaces) are primarily dust-removed in the primary dust-collecting unit of the electric dust collection unit, and after spraying additives into the dust-removed air, secondary dust removal is performed. After removing it, it is transported to the quantum energy generator, and while the quantum energy generator examines the pulse-shaped magnetic field and pulsating quantum energy, the discharge reaction purifies the pollutants in the air through electrochemical reactions of dissociation, excitation, ionization, oxidation, and reduction reactions. , Bacteria are sterilized, and the thermal electrons emitted from the cathode heated by the heating element collide (hit) with the molecules of pollutants in the air, so that the molecules of each substance are purified in the dissociation process of the nuclear reactor, and at the same time generated in the dissociation process of the high voltage discharge process. Active radicals of the hydroxyl group pierce and sterilize the cells of bacteria and viruses in the air, and at the same time irradiate the magnetic field generated in opposite directions in the heating element and the quantum energy generating unit and pulsating quantum energy generated as the magnetic field overlaps and disappears, and coating the cathode. Pollutant purification efficiency and bacteria sterilization efficiency are improved by catalytic oxidation of the catalytic material in a high-temperature environment. Pollutants are once again purified, bacteria are sterilized, and ionized air irradiated with quantum energy and purified air containing active radicals of various hydroxyl groups are indirectly heat-exchanged with the air flowing into the device at the heat exchanger to reach the appropriate temperature. After cooling, it is supplied to the diffuser of the quantum energy irradiation unit and flows into the flow path, or contaminated air containing pollutants, drinking water, purified water, Electrochemical reactions such as oxidation, reduction or electrolysis reactions or dissociation, excitation, ionization, oxidation, reduction reactions by spraying and mixing clean water such as drinking water and contaminated seawater, river water, fish farm drainage, drinking water, swimming pool drainage, etc. It sterilizes germs and airborne viruses in the air and polluted air, removes and purifies pollutants, or removes and purifies pollutants in water or polluted water contained in pollutants, and removes bacteria and harmful viruses in water. Sterilize.

Description

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

The present invention relates to the treatment of gaseous substances including air and liquid substances including water in which a quantum energy generator is built-in. More specifically, it is a device composed of an additive supply unit, an electric dust collector, a heat exchange unit, a quantum energy irradiation unit, and a control panel, and external air that is sucked in and pressurized by a fan (fan) and introduced into the device or semiconductor, LED TV, PCB, and home appliances Manufacturing facilities, petroleum refining facilities, chemical fiber, textile dyeing and processing facilities, livestock facilities, slaughtering processing facilities, marine products processing facilities, basic organic compound manufacturing facilities, food waste treatment facilities, etc. , ships, automobiles) exhaust gas, exhaust gas from combustion facilities (boilers, incinerators, heat treatment furnaces), smart farms, glass greenhouses, entire ventilation facilities in large factories, air conditioning facilities and drinking water in ultra-large public facilities, industrial wastewater, livestock farming It can be applied to treatment facilities such as river water, sea water, ballast water, cooling water, etc. that cause wastewater, green algae and red tide,
The contaminated air is sucked in and pressurized using a fan, supplied to the 1st stage dust collector for primary dust removal, then the additive supplied from the additive supply unit is sprayed and mixed into the dust-eliminated air, and then supplied to the 2nd stage dust collector for secondary dust removal. , It is transferred to a quantum energy generator with a built-in discharge function, and the quantum energy is irradiated to the high voltage discharge unit, and the transported airborne contaminants are purified through electrochemical reactions such as dissociation, excitation, ionization, and oxidation/reduction reactions in the high voltage discharge process. and sterilizes airborne bacteria and viruses,
Ionized air irradiated with quantum energy and purified air containing various active radicals such as hydroxyl groups and singlet oxygen ( ¹ O ₂ ) are supplied to the heat exchange unit and indirectly heat-exchanged with the air flowing into the device from the heat exchange unit to reach an appropriate temperature. After being cooled by the quantum energy irradiation part, it is supplied to the diffuser installed in the passage through which air, gaseous substances, water and liquid substances pass, and external air flowing into the passage or polluted air containing pollutants, gas phase including air Oxidation, reduction reaction or electrolysis reaction or dissociation by spraying and mixing with substances, clean water such as drinking water, purified water, drinking water and contaminated seawater, river water, farm drainage, drinking water, swimming pool water and water, including water, here, Sterilize bacteria and airborne viruses in the air and contaminated air through electrochemical reactions such as ionization, oxidation, and reduction reactions,
Air and gaseous substances including air, water and liquid substances including water that purify by removing pollutants, remove and purify pollutants in water or polluted water contained in pollutants, and sterilize bacteria and harmful viruses in water It relates to a quantum energy generator with a built-in discharge function for gas, liquid, and fluid processing.

Semiconductor, LED TV, PCB, home appliance manufacturing facilities, petroleum refinery facilities, chemical fibers, textile dyeing and processing facilities, livestock facilities, slaughter processing, marine 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, combustion facility (boiler, incinerator, heat treatment furnace) exhaust gas and wastewater treatment, contaminated drinking water, ship ballast water treatment, river water, seawater treatment, process Water and cooling water contain ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, methyl isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methylamine, triethylamine, acetic acid, valeric acid, dimethyl sulfide butylaldehyde, Ethylbenzene, xylene, carbon disulfide, sulfur oxides (SOx), organic solvent soluble 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), chromium (Cr), ammonia nitrogen, nitrate nitrogen, normal nucleic acid, and wastewater with high COD and BOD contain various pollutants.
Liquid substances such as ballast water, purified water, RO water, and ultrapure water that need to treat aquatic bacteria, as well as bird flu (AI), foot-and-mouth disease (FMD), swine fever (ASF) in livestock facilities, and Edward Siella tarda in farms ( Edwardsiellus Tarda), Streptococcus iniae or vibrio ichtyoenteri, fungi in food processing facilities and living spaces, bacteria such as Pseudomonas aeruginosa, Staphylococcus aureus, Pneumococcus, Legionella, and MRSA [ Mutant viruses such as methicillin-resistant S. aureus] and MRSE [methicillin-resistant S. epidermidis], Mycobacterium tuberculosis, Mycobacterium avium, drug-resistant P. aeruginosa, enterotoxin-producing E. coli, enterohemorrhagic E. coli, Klebsiella pneumoniae (Klebsiella pneumoniae), Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis, Enterobacter cloacae , Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Shigella Flexneri, mutant viruses (MRSA) , MERS coronavirus (MERS-COV), Ebola virus, SARS corona virus (SARS-COV), bacteria, etc. are suspended in the air,
Harmful bacteria and viruses suspended in the air can be infected through the air, and water bacteria such as Bacillus, Bacillus anthracis, Bacillus Cereus, Bacillus Coagulans, etc. Since these viruses build a biofilm and have resistance to disinfectants and disinfectants, reliability of sterilization cannot be secured.
Conventional techniques for removing the contaminants include a water cleaning method in which contaminants are physically absorbed by dissolving them in water through gas-liquid contact, a chemical cleaning method in which contaminants are absorbed into a chemical solution through gas-liquid contact and chemically neutralized, and hypochlorous acid There is a chemical liquid oxidation method in which an aqueous solution containing an oxidizing agent such as soda and a contaminant are brought into gas-liquid contact to oxidize and decompose.
In addition, there is an adsorption method in which contaminants are adsorbed and removed by adsorbents such as activated carbon, silica gel, and zeolite, and an ion exchange resin method in which contaminants are adsorbed with ion exchange resins using ionicity of contaminants. There is a biological stationary deodorization method that removes pollutants by decomposition and cleaning, a direct combustion method that burns combustible gas such as LNG to decompose and remove pollutants by burning the inside of the device at a high temperature of 700 ° C or more, and a platinum or palladium catalyst layer There is a catalytic combustion method in which pollutants are oxidatively decomposed at a low temperature of 250 to 350 ° C using a catalytic combustion method, and a dielectric is installed between the discharge electrodes or between the discharge electrodes, and the high voltage generated by the high voltage generator is applied to the discharge electrodes to discharge pollutants passing between the discharge electrodes. Various technologies such as the plasma deodorization method that removes contaminants with plasma generated in the process are applied and used in each industry.
In addition, bacterial sterilization methods include a method using disinfectants such as sepylpyridinium chloride, a chlorine-based disinfectant, butylene oxide, isothiancyanate, acetic acid peroxide, and hydrogen peroxide, a heat sterilization method using high-temperature water and steam, and ethylene Oxide (EO), a sterilization method using ozone gas, and an ultraviolet sterilization (UV) method have been used as an alternative to chlorine-based disinfection.
Recently, a sterilization method using a low-temperature plasma, a radiation sterilization method, an electron beam sterilization method, an ultra-high pressure sterilization method, and a sterilization method using a high-field pulse are being developed and applied on a trial basis.
Bacterial sterilization using a chlorine-based disinfectant is a food contamination index bacteria such as drinking spring water, animal and food sterilization, and low- and medium-temperature heat-resistant bacteria, E. It has been widely used for the sterilization of food poisoning-causing bacteria such as staphylococcus aureus, and the sterilization method of bacteria using ethylene oxide (EO) and ozone gas has been used to sterilize medical instruments that cannot be sterilized with high temperature steam. damage), its use is declining.
In addition, the plasma discharge sterilization method is effective for surface sterilization of medical containers or other instruments, but there is a ventilation problem in the chamber after use, and the high-energy radiation sterilization method is a method of sterilizing bacteria by irradiating radiation and X-rays to inactivate pathogens. Although effective, it is expensive and the device is large, which limits movement and exposes the user to radiation.
Electron beam sterilization is a method of sterilizing implantable medical devices such as bioactive coating surfaces, medical devices containing coatings, and catheters and tissue processing supports by irradiating electron beams. There is a problem that the activity of the molecule is destroyed or reduced.
In order to solve the problem of removing the contaminants and sterilizing bacteria, Korean Patent Publication No. 10-1456611 (PM, SO _X , NO _X removal device in ship exhaust gas) includes a scrubber, purifier, Composed of an ozone generator and a PH mixer, it supplies and sprays the washing water pressurized by a pump to the nozzle to the exhaust gas containing PM, SO _x , NO _x , and OIL flowing into the scrubber and sprays it to remove PM, SO _x , NO _x , and OIL substances After absorbing PM and OIL, the purifier separates PM and OIL, supplies ozone generated from the ozone generator to separate _SOx and _NOx substances adsorbed in the washing water, and acidified washing water with _SOx and _NOx substances adsorbed A technology of reusing the washing water by supplying a neutralizer stored in the PH mixer to adjust the PH of the washing water and reusing the washing water has been disclosed, but this technique has a complicated device configuration, high initial installation cost, and is Ozone treatment is required, and secondary pollutant treatment such as wastewater generation is required.
1. In Korean Patent Publication No. 10-1096596 (Volatile Organic Compound Adsorption Tower), adsorbents such as activated carbon and zeolite are fixedly installed in multiple stages in the adsorption tower, and the adsorbent in contact with the exhaust gas is continuously 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. Korean Patent Publication No. 10-1542177 (VOC adsorption concentration type catalytic oxidation treatment device) desorbs volatilized high-concentration organic compounds (VOC) using hot air, and supplies the desorbed organic compounds (VOC) to the catalytic oxidation unit It is a technology that removes organic compounds (VOC) through an oxidation reaction with catalyst materials. The device is huge, and the fuel cost increases according to the concentration of VOC. There is a risk of fire due to spontaneous ignition due to heat storage, and catalyst poisoning prevention management is required, and maintenance costs are expensive.
3. In Korean Patent Publication No. 10-1567334 (plasma adsorption deodorizer), a certain amount of ozone and hydrogen peroxide are supplied to the contaminated air flowing into the mixer, mixed for a certain period of time, and then transferred to a plasma reactor to form low-temperature plasma and catalyst by glow discharge. It oxidizes 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 compound to remove and exhaust excess ozone and hydrogen peroxide. As a result, secondary waste is generated due to the replacement of the adsorbent, and there is a risk of photochemical smog when surplus ozone and hydrogen peroxide are discharged into the atmosphere without being removed.
4. Korean Patent Publication No. 10-1253259 (Disinfectant composition and killing method using the same) includes at least one substance among hexamethylamine, dodecaamine, triethylene glycol diamine, polyoxypropylene diamine, and polyoxyethylene diamine , hydrochloric acid, hydrobromic acid, iodic acid, nitric acid, carbonic acid, sulfuric acid, phosphoric acid, acetic acid, benzoic acid, dehydroacetic 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 , polyalkylene guadidin salt prepared by selecting any one material from glycolic acid and sodium pyrithione as main components. As a disinfectant, pulp production, algae and Enterobacter aerogens of cooling tower water quality, Escherichia coli ( Escherichia coli), Micrococcus, Pseudomonas aeruginosa, Klebsiella pneumoniae, Staphylococcus aureus, Bacillus subtilis ), Aspergillus niger, etc. can be sterilized, but the sterilization range is limited, and in order to effectively sterilize, the concentration of the above-mentioned chemicals for the sterilization target must be maintained at 1 to 10,000 PPM, so the consumption of chemicals is high.
5. Republic of Korea Patent Publication No. 10-0728308 (high-speed pasteurization and sanitary treatment apparatus and method) loads a container for storing health functional food or pharmaceutical inside a mixing chamber, and steam containing hydrogen peroxide produced from a steam peroxide generator is sprayed on the surface of the container through a nozzle for a certain period of time to sterilize spores of Bacillus subtillis var.globigii and ascospores of yeast yeast (Saccharomvcescerevisiae) attached to the surface of the container, and unreacted hydrogen peroxide After recovering the steam contained in the container, it is sent to a catalytic reactor to remove hydrogen peroxide through a catalytic reaction, and after removing moisture from a moisture trap, fine dust is removed by passing through a HEPA filter, and then sucked into a blower to pressurize and heated by a heater. It is a technology in which the process of washing 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 if there is a residual amount of hydrogen peroxide, health functional foods or pharmaceutical products stored in the container are mixed with hydrogen peroxide. Oxidation may cause the composition to deteriorate.
6. Korean Patent Publication No. 10-1819108 (Composition for removing biofilm containing eugenol and emulsifier as active ingredients and method for preserving masonry from biological weathering using the same) Oil derived from cinnamon, sweet basil, star anise, lemon balm, vanilla, celery, ginger, or synthesized from other substances Alkali metal salts such as sodium salt and potassium salt and alkaline earth metal salts such as calcium salt and magnesium salt are contained in the nol, and an emulsifier is mixed to improve dispersibility. As a technology to prevent bioweathering of masonry by removing biofilms, this technology has limitations in removing biofilms attached to the inside of pipes where water or water-containing liquids flow.
7. Korean Patent Publication No. 10-11296207 (In-line treatment device for ship ballast water installed with circulation piping for suppression of biofilm formation) uses a pump to suck in and pressurize seawater to filter or centrifuge installed inside the treatment device. It is transported to a pretreatment device in which one is adopted, and then relatively large-sized zooplankton, microorganisms, and foreign substances are removed using filtration or centrifugal force, and then sent to an electrolysis device, and DC power is supplied from the DC power supply to the positive and negative electrode plates installed inside. This technology removes biofilm and microorganisms in the water after generating sodium hypochlorite by electrolysis of seawater by supplying seawater. This technology requires a high concentration of sodium hypochlorite to effectively remove biofilm and microorganisms. Sodium chlorate itself is corrosive and presents a risk of corrosion of equipment and ballast water storage tanks.
8. In Korean Patent Publication No. 10-1629202 (Apparatus for removing algae and red algae using plasma), a circular flow path is fixed to the vessel using a support, and a dielectric pipe is passed through the upper part of the flow path to the lower part of the flow path It is installed by extending it to the bubble generator installed on the inside of the dielectric, a discharge electrode is installed inside the dielectric, a counter electrode is installed on one side of the flow path at a certain distance from the discharge electrode, and the high voltage generated by the power supply unit is applied to the discharge electrode and the counter electrode through the wire This technology allows ozone and hydroxyl generated in the underwater plasma discharge process to disperse and contact red algae and green algae-containing water flowing into the flow path to kill them. This technology requires a separate ozone treatment facility and bubble generator that are not dissolved in water. In addition, there is a problem in that a lot of time is required 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 organisms using free radicals. However, cell lysis using free radicals is described, but cell lysis using an electrochemical method is not described.
10. U.S. Patent No. 6,150,148 describes an electroporation device for temperature control during processing by generating and applying a magnetic field according to a diagram of a user-specified pulse and temperature profile.
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 reviewed above, the exhaust gas of conventional engines (generators, ships, automobiles), combustion facilities (boilers, incinerators, heat treatment furnaces), industrial process and wastewater treatment plant exhaust, and purification of exhaust gases from livestock breeding facilities and processing facilities Due to the above-mentioned problems, the conventional technology is insufficient to effectively treat various pollutants at the same time, and the sterilization of airborne bacteria, viruses, and biofilms in water and bacteria is insufficient in terms of efficiency due to the above-mentioned problems. However, it is currently not possible to propose a method for removing green algae and red algae with a wide range of application while ensuring stability and durability.

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1. Korean Patent Publication No. 10-1096596 (volatile organic compound adsorption tower) 2. Korean Patent Publication No. 10-1542177 (VOC adsorption concentration type catalytic oxidation treatment device) 3. Republic of Korea 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 sanitary treatment apparatus and method) 6. Korean Patent Publication No. 10-1819108 (Composition for removing biofilm containing eugenol and emulsifier as active ingredients, preservation method of masonry from biological weathering using the same) 7. Republic of Korea Patent Publication No. 10-11296207 (in-line treatment device for ship ballast water with circulation pipe installed to inhibit biofilm formation) 8. Korean Patent Publication No. 10-1629202 (apparatus for removing 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. US Patent No. 6,150,148 (User Defined Pulse and Temperature Profile) 11. U.S. Patent No. 6,096,020 (Electroporation method and device for generating and applying magnetic field according to user-specified pulse diagram)

The technical problem to be achieved by the present invention is to supply external air or semiconductor, LED, which is sucked and pressurized by a fan to a device composed of an electric precipitator, an additive supply unit, a quantum energy generator, a heat exchange unit, a quantum energy irradiation unit, and a control panel, and flows into the device. Process exhaust gas and wastewater treatment facilities such as TV, PCB, home appliance manufacturing facilities, petroleum refining facilities, chemical fibers, fiber dyeing and processing facilities, livestock farming facilities, slaughter processing, marine products processing facilities, basic organic compound manufacturing facilities, food waste treatment facilities, etc. Exhaust gas, exhaust gas from engines (generators, ships, automobiles), and exhaust gases from combustion facilities (boilers, incinerators, heat treatment furnaces) are supplied to the 1st-stage electrostatic precipitator, and DC high voltage is applied to the discharge electrodes and dust collection electrodes while irradiating quantum energy. It is applied to first remove dust in the corona discharge process and dust collection process,
Additives are sprayed into the air that has been firstly dedusted to cause ionic reactions, chemical reactions, and aggregation reactions between the additives and pollutants in the air that have been firstly dedusted. Secondary dust removal in the corona discharge process and dust collection process by applying a direct current high voltage,
The dust-removed air is supplied to the quantum energy irradiation unit with a built-in discharge function, and while quantum energy is irradiated in the introduced air, the high voltage generated by the high voltage generator is applied to the discharge electrode and ground electrode of the high voltage discharge unit for dissociation, excitation, ionization, and oxidation. , purify pollutants through electrochemical reactions such as reduction reactions, and at the same time sterilize or sterilize by perforating biofilms of bacteria and viruses in the floating air by active radicals such as singlet oxygen and hydroxyl ions generated in the discharge process,
Ionized air irradiated with quantum energy and purified air containing active radicals such as hydroxyl are indirectly heat exchanged with polluted air flowing into the device in the heat exchange unit, cooled to an appropriate temperature, and then supplied to the diffuser of the quantum energy irradiation unit. external air or polluted air containing pollutants, gaseous substances including air, clean water such as drinking water, purified water, drinking water, and contaminated seawater, river water, fish farm drainage, drinking water, swimming pool, etc. It sprays and mixes with contaminated water and liquid materials including water, and bacteria and suspended air in the air and contaminated air introduced by electrochemical reactions such as oxidation, reduction, electrolysis, dissociation, excitation, ionization, oxidation, reduction, etc. Discharge for gas, liquid, and fluid treatment that sterilizes viruses, removes and purifies pollutants, or removes and purifies pollutants in water or polluted water contained in pollutants, and sterilizes and sterilizes bacteria and harmful viruses in water. It is to provide a quantum energy generator with built-in functions.

City water storage tank 101, additive storage tank 102a-e, additive undiluted solution supply pipe 103, city water supply pipe 104, agitator 105, pump 106, additive supply pipe 107, solenoid valve 107a, 107b), heating chamber 108, electric heater 109, nozzle 110, heater power supply 111, venturi 112, air compressor 113, and additive storage tanks 102a, 102b, 102c, 102d, 102e) After selecting and storing any one or more of the reducing agent for removing nitrogen oxides (NO _X ), sulfur oxides (SO _X ) removing agent, oxygen scavenging agent, hydroxyl release agent, and particle coagulant, and storing it, An appropriate amount is supplied to the city water storage tank 101, stirred with the agitator 105 for a certain period of time, and then sprayed into the heating chamber 108 heated to a high temperature by the electric heater 109 using the pump 106 to vaporize After being sucked into and pressurized by the air compressor 113, a double-fluid nozzle connected to the neck 12a of the venturi ejector 112 installed between the first-stage electrostatic precipitator 210 and the second-stage electrostatic precipitator 220 of the electrostatic precipitator 200 Additive supply unit 100 for supplying and spraying to (203a); and
The main body 201 with both ends conical and the central part cylindrical, the left end face connected to the fan 204 and the right end face connected to the venturi ejector 203, the outer left side of the body 201 and one inner 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 is installed, and the third and fourth quantum energies are installed on the right side of the body 201 and on one side of the inside. A second partition plate in which the generating coils 212a and 212b and the dust collecting electrode 212 are installed is installed, a power supply 214 is installed on one side of the outer side of the main body 201, and -power generated by the power supply 214 When supplied to the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 through the wire 213, the first and second quantum energy generating coils 211a and 211b having opposite winding directions mutually As the pulse-shaped 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 at the discharge electrode 211, and + power generated from 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 form pulses in opposite directions. While the magnetic field and pulsating quantum energy of are irradiated, + power is supplied to the dust collecting electrode 212 so that the ionized material on the discharge electrode 211 attaches to the dust collecting electrode 212 by electrical attraction to remove dust. A first-stage dust collector 210; Wow
The main body 202, the left end of which is connected to the venturi ejector 203, the first quantum energy generating coil 221a is installed on the left outer side of the main body 202, 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, a third quantum energy generating coil 222a is installed on one outer side of the right side of the main body 202, and a third quantum energy generating coil 222a is installed on one outer side of the plurality of cylinders 222c. 4, the quantum energy generating coil 212b is installed, and the fifth quantum energy generating coil and dust collection electrode 212 is installed in the shape of a plurality of RF coils on the inner circumferential surface of the cylinder 222c and composed of a cover plate on the top. A partition plate (not shown) is installed, and a power supply 224 is installed on one side of the outer side of the main body 202, and -power generated by the power supply 224 is passed through the wire 223 to the first and second both When supplied to the energy generating coils 221a and 221b and the discharge electrode 221, the first and second quantum energy generating coils 221a and 221b whose winding directions are opposite to each other generate magnetic fields and pulsating quantum energy in the form of pulses in opposite directions. While being irradiated, dust and heavy metals in the polluted air are ionized by corona discharge at the discharge electrode 221, and + power generated from the power supply 224 is passed through the wire 223 to the third and fourth quantum energy generating coils 222a, 222b) and the fifth coil/collecting electrode 222, pulse-type magnetic fields and pulsating quantum energy in opposite directions are irradiated from the third and fourth quantum energy generating coils 22a and 222b whose winding directions are opposite to each other. While positive power is supplied to the dust collecting electrode 222, pulsed magnetic fields in opposite directions are irradiated from the plurality of fifth coils installed, and pulsating quantum energy generated in a state where the magnetic fields in opposite directions are superimposed and extinguished is investigated. An electric precipitator 200 composed of a two-stage dust collector 210 that removes dust by allowing the ionized material on the discharge electrode 221 to adhere to the dust collecting electrode 222;
A body 301 in a cylindrical or rectangular parallelepiped shape, an insulator 302 applied to the outer circumferential surface of the body, a trigger coil or solenoid coil at a predetermined interval from the inner surface of the body, and discharge needles 311e on the circumferential surface inside and outside the body at intervals The generating coil and discharge electrode 311 attached at intervals are installed, and the discharge electrode 311 is spaced apart from each other in the form of a trigger coil or solenoid coil, and discharge needles 312e are attached to the circumferential surface at intervals inside and outside A second quantum energy generating coil and ground electrode 312 is installed, and a pulsed power supply 313 is installed on one side of the body outside, and the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and discharge electrode 311 are connected to a conducting wire 314 It is connected to the energy generation coil and ground electrode 312, and the pressure fan 204 of the electric dust collector 200 is operated so that the sucked and pressurized polluted air flows into the main body 301 of the first quantum energy generator 310. At the same time, when the power generated by the pulsed power supply 313 is supplied to the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 through the conducting wire 313, they are supplied in opposite directions to each other. The first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil ground electrode 312 in the form of a trigger coil or solenoid coil wound with a pulsed magnetic field at an angle of 90 degrees to the current flow and center distance As magnetic fields in the form of pulses in opposite directions overlap and disappear, pulsating quantum energy is generated and irradiated in a zero magnetic field state, and discharge starts between the discharge electrodes 311 and 312 and forms a high-field electron energy band, passing through this band. Active radicals such as singlet oxygen and nitric oxide hydroxyl ions are generated during the dissociation and decomposition of covalent bonds of air constituents, odor-causing substances contained in air, and harmful substances contained in gaseous substances including air. A first quantum energy generator 310 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of bacteria and viruses floating in the air;
A cylindrical or rectangular parallelepiped body 301 insulates the inner surface of the body, and two fixing stands (not shown) are installed at regular intervals therein. 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) in which a plurality of discharge electrodes having cone-shaped ends are installed. ) is installed facing each other with the discharge needles facing toward the inner center, and the first gradient saddle coil 322-1a, the first discharge electrode 322-2a, and the second gradient saddle coil 322-1b 1 A ground electrode 323 is installed on a fixed base (not shown), in which a plurality of discharge needles having a cylinder shape and one end of a certain length being machined into a cone shape are installed at intervals inside the discharge electrode 322-2b at intervals. , The third discharge electrode 324 in which a plurality of discharge needles having a screw shape at intervals inside the ground electrode 323 and one end of a certain length on the outer circumferential surface is machined into a cone shape at intervals is installed. ) and supplying pulse-type power generated by the power supply 328 installed on the outer side of the main body 301, the first gradient saddle coil 322-1a and the first discharge electrode are wound in opposite directions to each other. (322-2a) and the second gradient saddle coil (322-1b) combined with the second discharge electrode (322-2b), magnetic fields in the form of pulses in opposite directions are irradiated to the main body 301, and magnetic fields in the form of pulses in opposite directions are applied to the body 301. In this superimposed and extinguished state, as the pulsating quantum energy is irradiated, multiple discharges are initiated and a high electric field occurs between the first and second discharge electrodes 322-1a and 322-1b, the ground electrode 323, and the third discharge electrode 324. An electronic energy band is formed, and high-field electromagnetic energy is irradiated to the air constituents introduced by the fan 204 passing through this band, odor causing substances, and harmful substances contained in the air, thereby reducing the air constituents and the air contained in the air. Covalent bonds of odor-causing substances and harmful substances are dissociated and decomposed to be purified. A second quantum energy generator 320 with a built-in discharge function for sterilizing and sterilizing active radicals such as singlet oxygen and hydroxyl ions generated in this process while perforating the biofilm of bacteria and viruses suspended in the air; and
A first quantum energy generator 330a composed of 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 It consists of a second quantum energy generator and discharge unit 330b composed of a second quantum energy generating coil and ground electrode 335, a high voltage generator 336, and a conducting wire 336f, and the main body 301 is a cylinder and a cube. , It is formed in any one shape among shapes such as a rectangular parallelepiped, and an insulating layer is formed by insulating the outer surface of the main body 301 with an insulating material, and a plurality of inclined coils or toroid coils having winding directions opposite to each other in the formed insulating layer. The first and second quantum energy generating coils 331 and 332 are installed to face each other and receive pulse-type power generated from the power supply 333 installed on one side outside the main body 301 through the wire 333d and oppose each other. A magnetic field in the form of a pulse in one direction is irradiated, and the magnetic fields in the form of pulses in opposite directions overlap and disappear at the center distance of the first and second quantum energy generating coils 334 and 335 to generate pulsating quantum energy generated in a zero magnetic field state. 301) While irradiating the inside, two discharge electrode fixtures 337a and 337b 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 facing each other. After drilling two holes (not shown) large enough to insert a fixing bracket at a distance from the center of both surfaces of a rectangular insulating plate selected from Teflon, ceramic, or glass materials, stainless steel or tungsten (W) The coil is wound in a clockwise or counterclockwise direction in the shape of an inclined coil or toroid coil transformed into a wire of a material, but the winding directions of the coils attached to the front and back are opposite to each other, and attached to the insulating plate. After attaching discharge needles 334a and 334b having a certain length at regular intervals to the coil, they are inserted into the fixtures 337a and 337b so that the winding directions of adjacent coils are in opposite directions to each other, and then go through the fixing nuts 338. Maintain and fix the gap, assemble the discharge electrode plates 334 and 335, the fixing nut 338, and the discharge electrode plate 335 in this order, and mount them on the fixtures 337a and 337b attached to the inner circumferential surface of the main body, and the outer body 301 A plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and ground electrodes 335 pass power in the form of pulses generated from the power supply 336b mounted on one side through a conducting wire 336d. When supplied to, a magnetic field in the form of pulses in opposite directions at an angle of 90 degrees to the direction of current flow is irradiated, and the center of the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 As magnetic fields in the form of pulses in opposite directions overlap and disappear at a distance, pulsating quantum energy is generated and irradiated in a zero magnetic field state, and a plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and grounds Discharge starts at the electrode 335 and a high-field electron energy band is formed, and the formed energy band is used to transmit high-field electron energy to constituents of the air introduced by the fan 204, odor-causing substances in the air, and harmful substances. is irradiated, and the covalent bonds of air constituents, odor-causing substances, and harmful substances are dissociated and purified through oxidation and reduction reactions, and active radicals such as singlet oxygen and hydroxyl ions generated in this process are released into the air. A third quantum energy generator 330 with a built-in discharge function for sterilizing and sterilizing by perforating the floating biofilm of bacteria and viruses;
The inner cylinder 303 has a cylindrical shape, one part of the outer side is insulated, and two parts are sealed with a partition plate (not shown) at intervals inside, and the left partition plate (not shown) is spaced to the left in the circumferential direction. A plurality of contaminated air injection ports 304 are perforated, and a plurality of purified air inlets 305 are perforated in the circumferential direction at intervals to the right side of the right partition plate (not shown), and on one circumferential surface of the inner cylinder 303. The housing 303a, in which the wound second quantum energy generator and heating coil 342a is installed, has a jacket shape to accommodate the first quantum energy generator and heating coil 342a, and performs the function of the second cathode 344a. It is insulated from the main body 301 and installed by interview, and a solenoid-shaped ground electrode 345b wound on the circumferential surface by interview on the circumferential surface of the outer surface of the jacket-shaped housing 303a is installed, and the inner cylinder 303 A second spur gear 346a is installed on one side of the outer surface, and a 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 a second electric motor 346c as a shaft. ), and a rotation fastening mechanism 346sd is installed on one side of both ends at intervals, the second quantum energy generator and heating coil 342a receives power from the second power supply 342b, and the second cathode 344a receives power 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 is the fifth power supply 345c. ) is supplied with power;
The outer cylinder 301 has a cylindrical shape, one part of the outer side is insulated, and a solenoid coil-shaped discharge electrode 345a wound on the inner circumferential surface is installed. A jacket-shaped housing 303b that functions as a first cathode 343a and accommodates the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated to face the circumferential surface as a first quantum energy generator and heating A coil 341a is installed, 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) is supplied with power;
First and second quantum energy generators and heating heaters (341a, 342a) to irradiate the first and second cathodes 343a and 344a with magnetic fields or magnetic fields in the form of pulses at an angle of 90 degrees in the direction of current flow, reaching 5000 ° C, which is a temperature that can overcome the work function value of the heating heater material. When heated above this temperature, thermal electrons are emitted from the surface of the material, and the power generated by the first power supply 341b and the third power supply 343b constituting the bias circuit or power in the form of a pulse is supplied to the first cathode 343a. At the same time, when the power generated by the second power supply 342b and the fourth power supply 344b constituting the bias circuit or the pulsed power is supplied to the second cathode 344a, the first and second quantum energy generators and heating Thermal electrons emitted from the material surface of the heaters 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, respectively. By heating the material of the cathodes 343a and 344a to a temperature higher than the temperature at which the work function value can be overcome, the fifth power supply 345c emits thermal electrons from the surface of the material toward the discharge electrode 345a and the ground electrode 345b. When the AC high voltage or DC high voltage in the form of a generated pulse is applied, discharge starts between the discharge electrode 345a and the ground electrode 345b and a high field electron energy band is formed, and this band is applied to the pressure of the pressurizing fan 204. Electrochemical reactions such as irradiation and heating of high-field electron energy to polluted air flowing in and passing by, irradiation of pulsed magnetic fields, irradiation of pulsating quantum energy, dissociation of thermionic emission and impact high-voltage discharge, ionization, excitation, oxidation, and reduction reactions A quantum energy generator 340 with a built-in fourth discharge function that purifies odor-causing substances and harmful substances in the contaminated air and sterilizes and sterilizes bacteria and viruses in the contaminated air;
In the horizontal or vertical shell-and-tube main body 401, a hole (not shown) of a certain diameter is perforated in an up and down diagonal direction on one side of the main body 401 to form a polluted air inlet 404a and an outlet 404b. It is installed by welding, and after drilling a plurality of holes (not shown) of a certain diameter in the center of both ends in the horizontal direction of the main body 401 to weld and install an inlet 404a and an outlet 404b of a certain diameter, the main body ( 401) A plurality of partition plates 401a having a diameter of 2 to 5 mm less than the inner diameter are bored with a plurality of holes (not shown) having a diameter of 2 to 5 mm less than the outer diameter of the tube 402 in the central and circumferential direction, and the punched holes ( After inserting a plurality of tubes 402 and baffles 403 between a plurality of partition plates 401a (not shown), both ends of the tubes are expanded and joined or welded using an expander (not shown). After installing the pressure fan 204 at the contaminated air inlet 404a, installing the outlet 404b in the electric precipitator 200, and setting the process gas inlet 305a to the outlet of 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 polluted gas introduced by the pressure fan 204 is passed through the inlet 404a installed at the bottom of the main body 401. It is discharged from the quantum energy generator 300 with a built-in discharge function in the process of being discharged through the outlet 404b installed on the upper part of the main body 401 in a diagonal direction through the internal baffle 403 and the tube 402 of the main body 401. is introduced into the process gas inlet 405a installed at the center of the left side of the main body 401, passes through the inside of a plurality of tubes 402, and is discharged through the outlet 405b. heat exchange unit 400; and
It is an insulating material, acid-resistant, and corrosion-resistant material in the shape of a cylinder or square column through which gaseous substances including air or liquid substances including water flow in and out, and the body 501 made of non-metallic material and the circumferential direction of one side of the body 501 2 ⁿ number of first and second quantum energy generating coils are wound with a certain number of windings in opposite directions to each other, installed facing each other, and connected to the power supply 523 with a conducting wire, and inside the main body 501 at regular intervals. The + pole 511 of the electrolyzer 510 in the form of a semicircular column having a length is installed, a hole (not shown) of a certain diameter is punched on one side of the outer side of the main body 501, and the hole (not shown) is The outlet pipe 405b of the heat exchange unit is connected to the upper part of the socket (not shown) having threads on the inner surface, and the diffuser pipe 502 is installed at the lower part of the socket (not shown), and the DC power supply ( 513) is installed, and one side 512 of the diffuser 502 is connected to the output-pole terminal of the DC power supply 510, and the power supply 510 of the electrolyzer 510 and the quantum energy generator ( When power is supplied to the power supply 523 of the power supply 520), the DC power in the form of a pulse generated by the power supply 510 is supplied to the + pole 511 and the - pole diffuser 512, and electrolysis proceeds, resulting in water and In a state in which heavy metals contained in liquid substances including water are removed, and the pulse-shaped magnetic field generated by the power supply 523 of the quantum energy generator 520 and the pulse-shaped magnetic field generated in opposite directions are superimposed and extinguished. The generated pulsating quantum energy 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 substances such as activated radicals are supplied to the diffuser 502 and air It is sprayed on gaseous substances including water or liquid substances including water to react 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. to the water and liquid phase materials of high-temperature active radical substances. A quantum energy irradiation unit 500 for sterilizing bacteria by spraying to perforate biofilms of bacteria such as algae by thermal shock and active radicals and by perforating biofilms of algae in water by electroporation;
The control panel 600 controls the power supplied to the additive supply unit 100, the electric dust collector 200, the quantum energy generator 300, and the quantum energy irradiator 500 by the data transmitted by the sensor in a cut-off supply method. make up, including
In order to achieve this object, the present invention uses an air fan to process external air or semiconductor, LED TV, PCB, home appliance manufacturing facilities, petroleum refining facilities, chemical fibers, textile dyeing and processing facilities, livestock facilities, slaughtering processing, and aquatic product processing. Facility, basic organic compound manufacturing facility, wastewater treatment plant exhaust gas, wastewater treatment plant exhaust gas, exhaust gas from engines (generators, ships, automobiles), and exhaust gases from combustion facilities (boilers, incinerators, heat treatment furnaces) After inhalation and pressurization using the , the first dust removal is performed in the first-stage electrostatic precipitator of the electrostatic precipitator, and the air mixed with additives supplied from the additive supply unit is supplied to the first dust-removed contaminated air to the quantum energy irradiation unit with a built-in discharge function. While irradiating quantum energy into the inflow 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. At the same time, active radicals such as singlet oxygen and hydroxyl ions generated in the discharge process sterilize or sterilize by perforating the biofilm of bacteria and viruses in the air, and activate ionized air irradiated with quantum energy and various hydroxyl groups. The purified air containing radicals is indirectly heat-exchanged with the air flowing into the device in the heat exchange unit, cooled to an appropriate temperature, and then supplied to the diffuser of the quantum energy irradiation unit to external air flowing into the flow path or contamination containing pollutants. Oxidation, reduction reaction or electrolysis reaction or dissociation, excitation, ionization, oxidation, reduction by spraying and mixing air and clean water such as drinking water, purified water, drinking water, polluted seawater, river water, farm drainage, drinking water, swimming pool drainage, etc. It sterilizes germs and airborne viruses in the air and polluted air that is introduced by electrochemical reactions such as reactions, purifies by removing pollutants, or removes and purifies pollutants in water or polluted water contained in pollutants, It is 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.

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1. Pulse-type magnetic field and pulsating quantum energy are irradiated to the 1st and 2nd stage precipitators of the electric precipitator to improve corona discharge efficiency and increase the collection rate by extending the residence time of generated ions.

2. In the high voltage discharge process, pulse-type magnetic field and pulsating quantum energy are irradiated to improve discharge efficiency, thereby improving polluted air purification efficiency and sterilization and sterilization rate of airborne bacteria and viruses.

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

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

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Referring to the accompanying drawings, the embodiments of the present invention will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings.
1 is a system diagram showing the configuration of a multi-purpose quantum energy generating device having a built-in thermionic emission function according to a first preferred embodiment of the present invention.
Referring to FIG. 1, the multi-purpose quantum energy generator with a built-in thermionic emission function according to the present invention includes an additive supply unit 100, a folding dust collector 200, a quantum energy generator 300, a heat exchange unit 400, and a quantum energy It includes an irradiation unit 500 and a control panel 600.
City water storage tank 101, additive storage tank 102a-e, raw additive solution supply pipe 103, city water supply pipe 105, pump 106, additive supply pipe 107, solenoid valves 107a, 107b, heating chamber (108), electric heater (109), nozzle (110), heater power supply (112), venturi (203), and air compressor (113) in the additive storage tanks (102a, 102b, 102c, 102d, 102e) After selecting and storing any one or more of the stored nitrogen oxide (NOX) removing reducing agent, sulfur oxide (SOX) removing agent, oxygen scavenger, hydroxyl group release agent, and particle flocculating agent compound, it is supplied to the city water storage tank 101 through a gravity differential supply pipe. An appropriate amount is supplied, stirred for a certain period of time with the stirrer 105, and then sprayed to the heating chamber 108 heated to a high temperature by the electric heater 109 using the pump 106 to vaporize, and then to the air compressor 113. An additive supply unit 100 that is suctioned and pressurized and supplied to the neck portion 203a of the venturi ejector 203 installed between the first-stage electrostatic precipitator 210 and the second-stage electrostatic precipitator 220 of the electrostatic precipitator 200;
The main body 201 with both ends conical and the central part cylindrical, the left end face connected to the fan 204 and the right end face connected to the venturi ejector 203; 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 is installed, and the third and fourth quantum energies are installed on the outer right side and the inner side of the main body 201. A second partition plate in which the generating coils 212a and 212b and the dust collecting electrode 212 are installed is installed, and a power supply 214 is installed on one side of the outer side of the main body 201, and -power generated by the power supply 214 When supplied to the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 through the wire 213, the first and second quantum energy generating coils 211a and 211b having opposite winding directions mutually As the pulsed 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 at the discharge electrode 211, and + power generated from 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 collection electrode 212, the third and fourth quantum energy generating coils 211a and 211b having opposite winding directions form pulses in opposite directions. While the magnetic field and pulsating quantum energy of are irradiated, + power is supplied to the dust collecting electrode 212 so that the ionized material on the discharge electrode 211 attaches to the dust collecting electrode 212 by electrical attraction to remove dust. A first-stage dust collector 210; Wow
The main body 202 whose left end is connected to the venturi ejector 203, the first quantum energy generating coil 221a is installed on the left outer side of the main body 202, and the second quantum energy generating coil 221b on the inner side, and A first partition plate (not shown) in which the discharge electrode 221 is installed is installed, and a third quantum energy generating coil 222a is installed on the right outer side of the main body 202. The fourth quantum energy generating coil 212b is installed on one side of the outer side of the plurality of cylinders 222c, and the fifth quantum energy generating coil has a shape of a plurality of RF coils on the inner circumferential surface of the cylinder 222c and is composed of a cover plate on the top. A second partition plate (not shown) with a dust collection electrode 212 is installed, a power supply 224 is installed on one side of the outer side of the main body 202, and -power generated by the power supply 224 is connected to a wire ( 223) to the first and second quantum energy generating coils 221a and 221b and the discharge electrode 221, the winding directions are opposite to each other in the first and second quantum energy generating coils 221a and 221b. As the pulsed magnetic field and pulsating quantum energy are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge at the discharge electrode 221, and + power generated from the power supply 224 is passed through the lead wire 223 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 winding directions of the third and fourth quantum energy generating coils 22a and 222b opposite to each other are opposite to each other. As the pulsed magnetic field and pulsating quantum energy are irradiated, +power is supplied to the collecting electrode 222, and the pulsed magnetic field in the opposite direction is irradiated and the magnetic field in the opposite direction is overlapped and extinguished in the fifth coil installed with a plurality of An electric precipitator 200 composed of a two-stage dust collector 210 that removes dust by allowing the ionized material on the discharge electrode 221 to adhere to the dust collecting electrode 222 while irradiating pulsating quantum energy in the state;
A body 301 in a cylindrical or rectangular parallelepiped shape, an insulator 302 applied to the outer circumferential surface of the body, a trigger coil or solenoid coil at a predetermined interval from the inner surface of the body, and discharge needles 311e on the circumferential surface inside and outside the body at intervals A first quantum energy generating coil and discharge electrode 311 attached at an interval is installed, and the discharge needle 312e is spaced apart from each other inside the discharge electrode 311 in the form of a trigger coil or solenoid coil, and the discharge needle 312e is spaced on the circumferential surface inside and outside. A second quantum energy generating coil and ground electrode 312 attached thereto is installed, and a pulse type power supply 313 is installed on one side of the body outside, and the first quantum energy generating coil and discharge electrode 311 is connected to the conducting wire 314 And it is connected to the second quantum energy generating coil and ground electrode 312, and the pressure fan 204 of the electric dust collector 200 is operated so that the sucked and pressurized polluted air is supplied to the main body 301 of the first quantum energy generator 310. At the same time as it flows into the inside, the power generated by the pulse type power supply 313 is supplied to the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 through the wire 313 When the first quantum energy generating coil cum discharge electrode 311 and the second quantum energy generating coil ground electrode 312 in the form of a trigger coil or solenoid coil wound in opposite directions to each other have a magnetic field in the form of a pulse at an angle of 90 degrees to the current flow. At the irradiation and center distances, pulse-type magnetic fields in opposite directions overlap and disappear, generating pulsating quantum energy in a zero magnetic field state and irradiating it to initiate a discharge between the discharge electrodes 311 and 312 and form a high-field electron energy band. Singlet oxygen and nitric oxide hydroxyl ions generated in the process of dissociation and decomposition of covalent bonds of air constituents passing through the zone, odor-causing substances contained in the air, and harmful substances contained in gaseous substances including air, etc. A first quantum energy generator 310 with a built-in discharge function for sterilizing and sterilizing by perforating the biofilm of bacteria and viruses floating in the air with active radicals;
A body 301 in a cylindrical or rectangular parallelepiped shape, the inner surface of the body is insulated, and two fixing tables (not shown) are installed at regular intervals therein, and the winding directions of the coils are opposite to each other and one side is spaced apart from the other. 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) in which a plurality of discharge electrodes having cone-shaped ends are installed. ) with the discharge needles facing the inner center and installed facing each other, the first gradient saddle coil 322-1a, the first discharge electrode 322-2a, and the second gradient saddle coil 322-1b A ground electrode 323 with a plurality of discharge needles having a cylinder shape and having one end of a certain length processed into a cone shape at intervals inside the one-discharge electrode 322-2b is installed at intervals, and a ground electrode 323 is installed on a fixing table (not shown) , A third discharge electrode 324 having a screw shape at intervals inside the ground electrode 323 and a plurality of discharge needles having one end of a certain length machined into a conical shape on the outer circumference are installed at intervals. ) is installed on the body 301 and supplied with pulsed power generated from the power supply 328 installed on one side outside the main body 301, the first gradient saddle coil 322-1a and the first discharge electrode are wound in opposite directions to each other. (322-2a) and the second gradient saddle coil (322-1b) combined with the second discharge electrode (322-2b), magnetic fields in the form of pulses in opposite directions are irradiated to the main body 301, and magnetic fields in the form of pulses in opposite directions to each other In this superimposed and extinguished state, as pulsating quantum energy is irradiated, multiple discharges are initiated and a high electric field occurs between the first and second discharge electrodes 322-1a and 322-1b, the ground electrode 323, and the third discharge electrode 324. An electronic energy band is formed, and high-field electromagnetic energy is irradiated to the air constituents introduced by the fan 204 passing through this band, odor causing substances, and harmful substances contained in the air, so that the air constituents and the air contained in the air. The covalent bonds of odor-causing substances and harmful substances are dissociated and decomposed and purified, which is produced during this process. 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 active radicals such as anti-oxygen and hydroxyl ions are suspended in the air; and
A first quantum energy generator 330a composed of 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 a ground electrode 335, a high voltage generator 336, and a second quantum energy generator and discharge unit 330b composed of a wire 336f, and the main body 301 is a cylinder and a cube. , Rectangular parallelepiped, etc., insulate the outer surface of the main body 301 with an insulating material to form an insulating layer, and form a plurality of inclined coils or toroid coils in which 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 pulsed power generated from the power supply 333 installed on one side outside the main body 301 is supplied through the conducting wire 333d and is opposite to each other. A magnetic field in the form of a pulse in one direction is irradiated, and the magnetic fields in the form of pulses in opposite directions overlap and disappear at the center distance of the first and second quantum energy generating coils 334 and 335 to generate pulsating quantum energy generated in a zero magnetic field state. 301) While irradiating the inside, two discharge electrode fixtures 337a and 337b 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 facing each other. After drilling two holes (not shown) large enough to insert a fixing bracket at a distance from the center of both surfaces of the rectangular insulating plate made of Teflon, ceramic, or glass, Wind the coil in a clockwise or counterclockwise direction in the shape of an inclined coil or toroid coil transformed into a wire, but wind it so that the winding directions of the coils attached to the front and back are opposite to each other, attach it to the insulating plate, and After attaching discharge needles 334a and 334b having a certain length at intervals, they are inserted into fixtures 337a and 337b so that the winding directions of adjacent coils are in opposite directions to each other, and then inserted into fixing nuts 338. Maintain and fix the gap, assemble the discharge electrode plate 334, the fixing nut 338, and the discharge electrode plate 335 in this order, and install them on the fixtures 337a and 337b attached to the inner circumferential surface of the body and external the body 301 The pulsed power generated by the power supply 336b mounted on one side passes through a plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and ground electrodes 335 through a conducting wire 336d. When supplied to, a magnetic field in the form of pulses in opposite directions at an angle of 90 degrees to the direction of current flow is irradiated, and the center of the first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 As magnetic fields in the form of pulses in opposite directions overlap and disappear at a distance, pulsating quantum energy is generated and irradiated in a zero magnetic field state, and a plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and grounds Discharge starts at the electrode 335 and a high-field electron energy band is formed, and the formed energy band is used to transmit high-field electron energy to air constituents introduced by the fan 204, odor causing substances in the air, and harmful substances. is irradiated, and the covalent bonds of air constituents, odor-causing substances, and harmful substances in the air are dissociated and purified through oxidation and reduction reactions, and active radicals such as singlet oxygen and hydroxyl ions generated in this process are released into the air. A third quantum energy generator 330 with a built-in discharge function for sterilizing and sterilizing by perforating the floating biofilm of bacteria and viruses;
The inner cylinder 303 has a cylindrical shape, one part of the outer side is insulated, and two parts are sealed with a partition plate (not shown) at intervals inside, and the left partition plate (not shown) is spaced to the left in the circumferential direction. A plurality of polluted air injection ports 304 are perforated, a plurality of purified air intake ports 305 are perforated in the circumferential direction at intervals to the right side of the right partition plate (not shown), and a winding is formed on one circumferential surface of the inner cylinder 303. The main body ( 301) is insulated from and installed by interview, and a solenoid-shaped ground electrode 345b wound on the circumferential surface of the outer surface of the jacket-shaped housing 303a is installed, and is installed on one side of the outer surface of the inner cylinder 303. 2 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 connected to the second electric motor 346c as a shaft and the gap A rotation fastening mechanism 346d is installed on one side of both end surfaces, the second quantum energy generator and heating coil 342a receives power from the second power supply 342b, and the second cathode 344a Power is supplied from the 4 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. under,
The outer cylinder 301 has a cylindrical shape, one part of the outer side is insulated, and a solenoid coil-shaped discharge electrode 345a wound on the inner circumferential surface is installed. A jacket-shaped housing 303b that functions as one cathode 343a and embraces the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated to face the circumferential surface as a first quantum energy generator and heating A coil 341a is installed, a rotation fastening mechanism 347d 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, 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) is supplied with power.
First and second quantum energy generators and heating heaters (341a, 342a) to irradiate 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 5000 ° C, which is a temperature at which the work function value of the heating heater material can be overcome. When heated above this temperature, thermal electrons are emitted from the surface of the material, and power generated by the first power supply 341b and the third power supply 343b constituting the bias circuit or power in the form of a pulse 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 pulsed power to the second cathode 344a, the first and second quantum energy generators Thermal electrons emitted from the surface of the material of the heating heaters 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. The fifth power supply 345c emits thermal electrons from the surface of the material toward the discharge electrode 345a and the ground electrode 345b by heating the material of the second cathode 343a and 344a to a temperature higher than the temperature at which the work function value can be overcome. ), discharge starts between the discharge electrode 345a and the ground electrode 345b and a high field electron energy band is formed, and this band is covered by the pressure fan 204. Irradiation and heating of high-field electron energy to polluted air introduced and passed by pressurized force, irradiation of pulse-type magnetic field, irradiation of pulsating quantum energy, dissociation of thermionic emission and impact high-voltage discharge, ionization, excitation, oxidation, reduction reaction, etc. A quantum energy generator 340 with a built-in fourth discharge function that purifies odor-causing substances and harmful substances in the polluted air through chemical reactions, and sterilizes and sterilizes bacteria and viruses in the polluted air;
In the horizontal or vertical shell-and-tube body 401, a hole (not shown) of a certain diameter is perforated in a vertical diagonal direction on one side of the body 401 to form a polluted air inlet 404a and an outlet 404b. It is installed by welding, and after drilling a plurality of holes (not shown) of a certain diameter in the center of both ends of the main body 401 in the horizontal direction, welding and installing an inlet 404a and an outlet 404b of a certain diameter, (401) A plurality of partition plates 401a having a diameter 2 to 5 mm smaller than the inner diameter are bored with a plurality of holes (not shown) having a diameter 2 to 5 mm smaller than the outer diameter of the tube 402 in the center and circumferential directions, After inserting a plurality of tubes 402 and a baffle 403 between a plurality of partition plates 401a into a hole (not shown), both ends of the tubes are expanded and joined or welded using an expander (not shown). After installation, the pressure fan 204 is installed at the polluted air inlet 404a, the outlet 404b is installed in the electrostatic precipitator 200, and the process gas inlet 305a is a quantum energy generator 300 with a built-in discharge function After connecting the process gas outlet 405b to the inlet of the quantum energy generator 500, the high-temperature polluted gas introduced by the pressure fan 204 is passed through the inlet 404a installed at the bottom of the main body 401. In the quantum energy generator 300 with a built-in discharge function 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 baffle 403 and the tube 402 inside the body 401 It is discharged and flows into the process gas inlet 405a installed in the center of the left side of the main body 401, passes through the inside of a plurality of tubes 402 and is discharged to the outlet 405b, indirect heat exchange method to adjust the temperature of the polluted gas heat exchange unit 400; and
It is an insulating material, acid-resistant, and corrosion-resistant material in the shape of a cylinder or square column through which gaseous substances including air or liquid substances including water flow in and out, and 2n in the circumferential direction of the main body 501 and the outer side of the main body 501 made of non-metallic material. Two first and second quantum energy generating coils are wound with a certain number of turns in opposite directions to each other, installed facing each other, and connected to the power supply 523 with a conducting wire. The + pole 511 of the semicircular columnar electrolyzer 510) is installed, a hole (not shown) of a certain diameter is punched on one side of the outer side of the main body 501, and the hole (not shown) is drilled on the inner surface. The outlet pipe 405b of the heat exchange unit is connected to the top of the threaded socket (not shown), the diffuser 502 is installed at the bottom of the socket (not shown), and the DC power supply 513 is installed on the outside of the main body 501. installed, and is connected to the output-pole terminal of the DC power supply 510 on one side 512 of the diffuser 502, and the power supply 510 and the quantum energy generator 520 of the electrolyzer 510 in the control panel 600 When power is supplied to the power supply 523, when the DC power in the form of a pulse generated from the power supply 510 is supplied to the + pole 511 and the - pole cum diffuser 512, electrolysis proceeds to produce water and water. The heavy metal contained in the liquid material is removed, and the pulse-type magnetic field generated by the power supply 523 of the quantum energy generator 520) and the pulse-type magnetic field generated in opposite directions are superimposed and extinguished. Pulsating quantum energy is irradiated, and quantum energy is irradiated from the quantum energy generator 300 with a built-in discharge function by a pressurizer (not shown), and substances such as activated radicals are supplied to the diffuser 502 and air It is sprayed on gaseous substances or liquid substances including water to purify pollutants by reacting active radicals with pollutants, sterilizes bacteria and viruses floating in the air, purifies water and liquid substances, and removes heavy metals contained in water. In particular, high-temperature active radical substances are removed from water and liquid substances. A quantum energy irradiation unit 500 that sterilizes bacteria by puncturing biofilms of bacteria such as algae by spraying and perforating biofilms of bacteria such as algae by thermal shock and active radicals and by electroporation method; and data transmitted by sensors It further includes a control panel 600 that controls power supplied to the additive supply unit 100, the electric dust collector 200, the quantum energy generator 300, and the quantum energy irradiator 500 in a cut-off supply method.
Figure 2 is a cross-sectional view showing the additive supply unit of Figure 1, when described with reference to the accompanying drawings, the additive supply unit 100 is a city water storage tank 101, an additive storage tank (102a-e), an additive undiluted 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, advection It consists of a sieve nozzle 111, a power supply 112, and an air compressor 113.
Additive storage tanks (102a, 102b, 102c, 102d, 102e) are installed on one side of the upper part of the cuboid-shaped, stainless steel water storage tank (101), connected by a pipe (103), and an agitator (105) is installed in the upper center. , The water supply pipe 104 is installed on one side of the upper side, and the pipe 107 connected to the pump 106 is installed on the lower side of the other side.
On one side of the upper part of the pump 106, an electric heater 109 is installed by winding a certain number of turns in a spiral shape on the outer surface, and the heating chamber 108 is a pipe 107 in which the pump 106 and the electromagnetic valves 107a and 107b are installed on one side. ) is connected to
In addition, a supply pipe 110 is installed on one side of the upper part of the heating chamber 109 and is connected to the 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 electronic valve (not shown) of the city water supply pipe 104 is opened and the city water storage tank 101 is filled with an appropriate amount of city water, urea, ammonia, iso Any one or more of reducing agents for removing nitrogen oxides (NOX) such as propyl alcohol and isobutyl alcohol are selected and stored in the additive storage tank 102a.
In addition, in the additive storage tank 101b, any one or more substances selected from sulfur oxide (SOX) removers such as ammonia, calcium hydroxide, calcium oxide, calcium carbonate, calcium bicarbonate, and sodium carbonate are selected and stored, and N- Aminomorpholin, 1-amino-4-methylpiperazine, N-aminohexamethyleneimine, 1-aminopyrrolidine, 1-aminopiperidine, hydroxylamine, N,N-diethylhydroxylamine, N -Any one or more materials selected and stored among oxygen scavengers such as isopropylhydroxylamine are selected and stored, and water, hydrogen peroxide, 4-allyl-2-methoxyphenol (eugenol), 3-(2 -Bornyloxy)-2-methyl-1-propanol, 2-tert-butylcyclohexanol, 4-tert-butylcyclohexanol, benzyl alcohol, 1-decanol, 9-decen-1-ol, Dihydroterpineol, 2,4-dimethyl-4-cyclohexene-1-methanol, 2,4-dimethylcyclohexylmethanol, 2,6-dimethyl-2-heptanol, 2,6-dimethyl-4-heptane A hydroxyl-releasing agent such as alcohol is stored.
In addition, in the additive storage tank 101e, dimethylsilyldimethylamine, N,N-dimethyltrimethylsilylamine, hexamethylsilazane, N,O-bis(trimethylsilyl)trifluoroacetamide, bis(dimethylamino)dimethylsilane, etc. After any one or more of the particle coagulants such as aminosilane and polyvinyl alcohol are selected and stored, the solenoid valve 103e of the supply pipe is opened and supplied to the water storage tank 101 in an appropriate amount by gravity difference, and the stirrer 105 is operated for a certain period of time to mix the water and supplied additives.
When the mixing is completed, the pump 106 sucks and pressurizes the additive whose concentration is adjusted in the water storage tank 101 and supplies 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 the electric heater 109 is supplied with power from the control panel 112 and heated to a high temperature, the nozzle 108a sprays a liquid additive After vaporization, it is supplied to the supply pipe 110 and supplied to the nozzle 203a inside the venturi 203. In addition, the nozzle 203a of the two-fluid type receives the compressed air generated by the air compressor 113 through the supply pipe 113a, and the compressed air and contaminated air introduced into the venturi 203 by the air fan 204 The additive vapor is mixed and transferred into the second stage dust collector 220 of the electric dust collector 200 by the pressure of the air fan 204 .
FIG. 3 is a cross-sectional view showing the electric precipitator of FIG. 1. Referring to the accompanying drawings, the electric precipitator 200 includes a body 201, a first quantum energy generating coil 211a, and a second quantum energy generating coil. (211b), discharge electrode 211, third quantum energy generating coil (212a), fourth quantum energy generating coil (212b), dust collection electrode 212, lead wire 213, quantum energy composed of high voltage generator 214 generator and first-stage electrostatic precipitator 210; and venturi ejector 203; and main body 202, first quantum energy generating coil 221a, second quantum energy generating coil 221b, discharge electrode 221, Quantum energy generator and two stages composed of 3 quantum energy generation coil (222a), 4th quantum energy generation coil (222b), 5th quantum energy generation coil and dust collection electrode 222, lead wire 223, and high voltage generator 224 It consists of a dust collector 220.
The shape of the main body 201 of the first-stage electrostatic precipitator 201 is conical at both ends and cylindrical in the middle, and the first quantum energy generating coil 211a is spaced apart on one side of the circumferential surface outside the cylindrical portion of the main body 201 is installed, and the second quantum energy generating coil 211b is installed on the outer circumferential surface of the plurality of cylinders 211c installed on the partition plate (not shown) installed therein.
In addition, the lead wire extends from the second quantum energy generating coil 211b and is bent 90 degrees downward at the end of the cylinder 211c, then bent 90 degrees horizontally, and then the middle of the cylinder 212c where the dust collecting electrode is installed. After extending to the length, a spring-shaped discharge electrode 211 with a plurality of discharge needles is installed outside.
A power supply 214 is installed on one side outside the main body 201, and the output side wires are 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 collection electrode 212 is performed by winding a certain number of turns clockwise or counterclockwise 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 installed, and the main body ( 201) As shown in FIG. 4B, on the inside of the right side of the cylindrical part, a partition plate (not shown) having a diameter 3 mm to 5 mm smaller than the inner diameter of the main body 201 is manufactured, 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 perforated in the circumferential direction, and a plurality of bolt holes (not shown) for flange fastening are additionally perforated at a distance of 20 mm apart (extended) from the perforated surface, and then 30 cm to 50 cm A plurality of cylinders 212c having a diameter in the range of 50 cm and a length of 80 cm to 1 m are manufactured, and at one end of the cylinder 212 c, an inner diameter ranges from 30 cm to 50 cm, an outer diameter ranges from 34 cm to 54 cm, and a hole for bolting on the center line of a width of 40 mm ( A plurality of cylinder-shaped dust collecting electrodes 212 manufactured by welding a plurality of perforated flanges (not shown) are manufactured, and the manufactured dust collecting electrodes 212 are bolted to a partition plate (not shown) with holes drilled therein. After attaching by matching the holes and fastening bolts and nuts, a certain number of turns are wound in the opposite direction to the winding direction of the third quantum energy generating coil 212a in the circumferential direction of the outer surface of the plurality of cylindrical dust collecting electrodes 212 A fourth quantum energy generating coil 212b is formed, one end of the 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 dust collecting electrode 212 After insulating the outer surface of the dust collecting electrode 212, the flange junction surface, and the outer surface of the fourth quantum energy generating coil 212b, match the perforated bolt holes of the partition plate (not shown), and then bolts and nuts. After installing the plurality of dust collection electrodes 212 by fastening, a partition plate (not shown) is inserted into the right side of the main body 201, and then the connection surface is welded and installed.
The third and fourth quantum energy generating coils 212a and 212b are wound into one of a Maxwell coil, Helmholtz coil, solenoid coil, cusp coil, toroid coil, and gradient coil shape.
The discharge electrode 211 is installed in a direction opposite to the winding direction of the third quantum energy generating coil 212a by winding a certain number of turns clockwise or counterclockwise in the circumferential direction on one side of the left side of the outer surface of the cylindrical portion of the main body 201. 1 The quantum energy generating coil 211a is wound and installed, and a partition plate (not shown) having a diameter 3 mm to 5 mm smaller than the inner diameter of the main body 201 is installed as shown in FIG. In the circumferential direction of the manufactured partition plate, a plurality of circles with a diameter of 30 cm to 50 cm are perforated in the circumferential direction using a model picking technology using a laser, and bolt holes for flange fastening are spaced 20 mm apart from the perforated surface. (not shown) is additionally perforated, and then a plurality of cylinders 211c having a diameter in the range of 30 cm to 50 cm and a length of 20 cm to 40 cm are manufactured, and at one end of the cylinder 211c, an inner diameter in the range of 30 cm to 50 cm and an outer diameter of 34 cm to 34 cm A plurality of cylinders 211c manufactured by welding a flange (not shown) having a plurality of bolt fastening holes (not shown) perforated on the center line of 54 cm and a width of 40 mm are manufactured, and the manufactured cylinders 211c are divided into partition plates ( After attaching by matching bolts and nuts by matching the bolt holes drilled in (not shown), as shown in 4b, the Rogoski coil shape (not shown) or deformation in the circumferential direction of the outer surface of the cylinder 211c By winding a certain number of turns in the circumferential direction of the outer surface of the plurality of cylinders 211c in the opposite direction to the winding direction of the first quantum energy generating coil 211a in the form of a rogoski coil (not shown), the second As shown in FIG. 4A by forming and extending the quantum energy generating coil 211b, after bending it 90 degrees to the center of the cylinder and bending it 90 degrees in the horizontal direction from the center of the cylinder, the cylinder-shaped dust collection electrode 212 is extended by the center distance. After winding a certain number of turns in a spring shape in a clockwise or counterclockwise direction to have a diameter in the range of 1/10 to 1/15 of the cylinder diameter, Discharge electrodes 211 are fabricated by attaching a plurality of needle-shaped discharge needles with sharp ends to the outer surface in the circumferential direction at intervals from each other, and a partition plate (not shown) on which a plurality of discharge electrodes 211 are installed is installed on the main body ( 201) After inserting the discharge electrode 211 to the center distance of the cylinder for the dust collection electrode on the inside left side, install it by welding the joint surface.
The material of the second quantum energy generating coil 211b and the discharge electrode 211 is stainless steel or tungsten (W) material.
The first and second quantum energy generating coils 211a and 211b are wound in any one of Maxwell coils, Helmholtz coils, solenoid coils, cusp coils, toroid coils, and gradient coils.
The direction of the first quantum energy generating coil 211a wound on the left circumferential surface of the main body 201 and the direction of the third quantum energy generating coil 212a wound on the right circumferential surface at intervals are opposite to each other. It is wound to form the first quantum energy generator 215 including the power supply 214.
A plurality of cylinders 211c installed on the left internal partition plate (not shown) of the cylindrical portion of the main body 201 are wound on the circumferential surface of the second quantum energy generating coil 211b, spaced apart from the direction 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 wound in opposite directions to form the second quantum energy generator 216 including the power supply 214 do.
The -pole wire of the DC power supply 214 is selected from Maxwell coils, Helmholtz coils, solenoid coils, cusp coils, toroid coils, and inclined coil shapes on the circumferential surface of the cylindrical portion of the main body 201, and rotates clockwise or counterclockwise. After being connected to the first quantum energy generating coil 211a wound in a clockwise direction with a certain number of turns, it is extended, and a part of the outer part of the main body 201 is perforated and wired to the inside, and then, as shown in FIG. 4B, a partition plate (not shown) ) are connected to the second quantum energy generating coil 211b wound on the outside of a plurality of cylinders 211c installed on and a plurality of discharge electrodes 211 integrally installed in the second quantum energy generating coil 211b.
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 generated at an angle of 90 degrees to the direction of current flow is generated, the winding directions of the first quantum energy generating coil 211a, the second quantum energy generating coil 211b, and the discharge electrode 211 are mutually In the opposite direction, the zero magnetic field state in which the magnetic fields in the form of pulses in opposite directions are overlapped and extinguished 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 pulsating quantum energy is generated and irradiated at the same time as supplying a high voltage in the form of a pulse to the discharge electrode 211, 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 A strong electric field is formed and corona discharge is initiated, and nitrogen molecules, oxygen molecules, and heavy metals contained in dust, which are air constituent molecules, gain electrons and ionize, and pulse-shaped magnetic fields and pulsating quantum energy are irradiated to generate By extending the lifetime of ions, the ionization rate in the discharge electrode 211 and the collection rate in the collection electrode 212 are improved.
As the power supply 214, any one of 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. 10 is selected. is used
A venturi ejector 203 is installed at the right conical end of the main body 201 of the first stage dust collector 210, and a two-fluid nozzle 111 connected to the additive 100 supply unit is installed at the neck 203a, and the venturi ejector ( 203) The main body 202 finished in a conical shape of the two-stage dust collector 220 is connected to the end.
The primarily collected polluted air flows into the venturi ejector 203 with the pressurized force of the fan 204, and releases a reducing agent for removing nitrogen oxides (NOX), a sulfur oxides (SOX) removing agent, an oxygen scavenger, and a hydroxyl group in the additive supply unit 100. For removing nitrogen oxides (NOX), which is selected from among the first and particle coagulant compounds, is pressurized by the pump 106 and the air compressor 120, and is supplied to the two-fluid nozzle 203b connected to the venturi ejector neck 203a. Any one or more additives among a reducing agent, a sulfur oxide (SOX) removing agent, an oxygen scavenger, a hydroxyl release agent, and a particle aggregating agent are supplied and sprayed, and contaminants, dust, and bacteria are sprayed and mixed into the sterilized air in the first-stage dust collector 210. It flows into the main body 202 of the dust collector 220.
The shape of the main body 202 of the two-stage electrostatic precipitator 220 is conical at both ends and cylindrical in the middle, and the first quantum energy generating coil 221a is spaced on one side of the outer left side of the cylindrical portion of the main body 202 and a second quantum energy generating coil 222a are installed, and winding directions of these coils 221a and 222a are opposite to each other.
The installation of the dust collection electrode 222 is carried out by the third quantum energy generating coil 222a for the discharge electrode 221 in the clockwise or counterclockwise direction of the winding direction of the coil in the circumferential direction on the right side of the outer surface of the cylindrical portion of the main body 202. It is wound, and a certain number of turns are wound in the opposite direction to the winding direction of the first quantum energy generating coil 221a.
As shown in FIG. 4B, a partition plate (not shown) having a diameter 3 mm to 5 mm smaller than the inner diameter of the main body 202 is manufactured on the inside of the right side of the cylindrical portion of the main body 202, and the circumferential direction of the manufactured partition plate (not shown) Using a model picking technology using a laser, a plurality of circles with a diameter of 30 cm to 50 cm are perforated in the circumferential direction, additionally perforated bolt holes (not shown) for flange fastening at a distance of 20 mm from the perforated surface, and 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 ranges from 30cm to 50cm, an outer diameter ranges from 34cm to 54cm, and a width of 40mm, for bolting to the center line. A flange (not shown) having a plurality of holes (not shown) is welded and attached, the third quantum energy generating coil 222a is installed in the outer circumferential direction of the cylinder 222c, and the second quantum energy generating coil 221b A fourth quantum energy generating coil 222b is formed by winding a certain number of turns in the opposite direction to the winding direction of ), and the length is extended to the inside of the cylinder 222c with a gap at both ends, as shown in FIG. 4c, inside the cylinder. The circumferential surface is marked in the circumferential direction, and then the marked circumferential surface is divided into 2 equal parts, 4 equal parts, 6 equal parts, and 8 equal parts for marking. A plurality of fifth coils wound in any one of the deformed solenoid coil shapes are installed at the marked portion on the inner surface of the cylinder 222c, but the winding directions of adjacent coils and coils facing each other are constant so that they are in opposite directions. The fifth quantum energy generating coil 222d in the form of an RF coil is formed by winding, and after installing a plurality of dust collecting electrodes 222 finished in the form of a cover on the upper surface where the winding is finished, the dust collecting electrode 222 is installed. A disc (not shown) is inserted into the right end of the cylinder of the main body 202 at a certain depth at a distance, and then welded and fixedly installed, and then installed on one side of the outer side of the main body 202. The + terminal of the output side of 24) is connected to the third quantum energy generating coil 222a and the plurality of fourth quantum energy generating coils/collecting electrodes 222 with a conducting wire 223.
The discharge electrode 221 is installed on the outer left side of the cylinder of the main body 202 in a coil shape selected from among Maxwell coils, Helmholtz coils, solenoid coils, cusp coils, toroid coils, and inclined coils, clockwise or counterclockwise. The first quantum energy generating coil 221a is formed by winding a certain number of turns in a clockwise direction opposite to the winding direction of the third quantum energy generating coil 222a, and one side of the cylindrical body is perforated to wire inside, A partition plate (disc) (not shown) having a diameter 3 mm to 5 mm smaller than the inner diameter of the cylinder of the main body 201 is manufactured, and dust is collected in the shape of a cylinder 222c by using a model picking technique using a laser on the partition plate (not shown). After punching the same number of dust collection poles 222 on the circumferential surface with the same diameter as the diameter of the electrode 222, and drilling a plurality of bolt fastening holes of a certain diameter in the circumferential direction spaced 20 mm apart from the perforated surface, Subsequently, a plurality of cylinders having a diameter in the range of 30 cm to 50 cm and a length of 20 cm to 30 cm are manufactured, and at one end, a plurality of cylinders having an inner diameter in the range of 30 cm to 50 cm, an outer diameter of 34 cm to 54 cm, and a plurality of holes for bolt fastening are perforated at the center line of a width of 40 mm. After manufacturing the cylinder 221c, matching the manufactured cylinder with the bolt holes drilled in the partition plate (not shown) and attaching it by fastening bolts and nuts, as shown in FIG. 4B, the outer surface of the cylinder 221c Second quantum energy generating coil by winding a certain number of turns in a Rogoski coil shape or a modified Rogoski coil shape in a circumferential direction opposite to the winding direction of the first quantum energy generating coil 221a (221b) is formed and extended, bent 90 degrees to the center of the cylinder, bent 90 degrees in the horizontal direction from the center of the cylinder, and then extended by the inner center distance of the cylinder of the dust collecting electrode 222. Cylinder diameter of the dust collecting electrode 222 After winding a certain number of turns in a spring shape in a clockwise or counterclockwise direction to have a diameter in the range of 1/10 to 1/15 of , Discharge electrodes 221 are fabricated by attaching a plurality of needle-shaped discharge needles with sharp tips in the circumferential direction at intervals from each other on the outer surface of the winding, and a partition plate (not shown) on which a plurality of discharge electrodes 221 are installed After the discharge electrode 221 is inserted to the left side of the main body 202 up to the center distance of the cylinder for the dust collection electrode, it is installed by welding to the bonding surface.
The material of the second quantum energy generating coil 221b and the discharge electrode 221 is stainless steel or tungsten (W).
For the -pole wire of the DC power supply 224, any one of Maxwell coil, Helmholtz coil, solenoid coil, cusp coil, toroid coil, and inclined coil shape is selected on the outer circumferential surface of the cylindrical portion of the main body 202, clockwise or It is connected to the first quantum energy generating coil 221a, which is wound with a certain number of turns in a counterclockwise direction, and then extended, and a part of the outer part of the main body 202 is perforated and wired to the inside, and then a plurality of them are installed on a partition plate (not shown). Each is connected to the second quantum energy generating coil 221b wound on the outside of the cylinder 222c and a plurality of discharge electrodes 221 integrally installed in the second quantum energy generating coil 221b.
As the power supply 224, any one of 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. 10 is selected. is used
The direction of the first quantum energy generating coil 221a wound on the left circumferential surface of the main body 202 and the direction of the third quantum energy generating coil 222a wound on the right circumferential surface at intervals are opposite to each other. By winding, the third quantum energy generator 225 including the power supply 224 is constituted.
The inner partition plate on the right circumferential surface at intervals from the direction of the second quantum energy generating coil 221b wound on the circumferential surface of the cylinder 221c installed on the left inner partition plate (not shown) of the cylindrical portion of the main body 202. The direction of the fourth quantum energy generating coil 222b wound on the circumferential surface of the plurality of installed cylinders 222c is wound in opposite directions to form the fourth quantum energy generator 225 including the power supply 224 make up
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 inner partition plates (not shown) on the right side of the cylindrical portion of the main body 202, adjacent coils wound in opposite directions to each other A plurality of coils installed facing each other or facing each other and the power supply 224 are combined to form 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 direction of current flow in the coil is directed to the left, 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, resulting in a zero magnetic field. In this state, pulsating quantum energy is generated, and the generated pulsating quantum energy is irradiated into the body.
A power supply 224 is installed on one side of the body 201, and the first and second quantum energy generating coils 221a and 221b, and the third and fourth quantum energy generating coils 222a and 222b are connected to the wire 223. ) and the power supply 224 are connected and installed.
When the pulse-type 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 flow of current A magnetic field in the form of a pulse generated at an angle of 90 degrees to the direction is generated. The first quantum energy generating coil 221a and the second quantum energy generating coil 221b have coil winding directions in opposite directions to each other, so they form pulses in opposite directions. 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 to generate pulsating quantum energy in a zero magnetic field state. to be investigated In addition, the pulsed power generated by the power supply 224 is passed through the wire 223 to the third quantum energy generating coil 222a, the fourth quantum energy generating coil 222b, and the fifth quantum energy generating coil and dust collection electrode. When supplied to 221, a magnetic field in the form of a pulse generated at an angle of 90 degrees to the direction of current flow is generated. The third quantum energy generating coil 222a and the fourth quantum energy generating coil 222b have winding directions of the coils mutually Since it is in the opposite direction, a pulse-shaped magnetic field is generated in the opposite direction, and at the center distance of the third quantum energy generating coil 222a and the fourth quantum energy generating coil 222b, the pulse-shaped magnetic fields in opposite directions overlap and disappear. In the zero magnetic field state, pulsating quantum energy is generated and irradiated. In addition, among the fifth quantum energy generating coils 222d in the form of RF coils, magnetic fields in the form of pulses are generated in opposite directions between adjacent coils wound in opposite directions or between a plurality of coils installed facing each other, so that a magnetic field in the form of a pulse is generated in the opposite direction. Pulse-type magnetic fields in opposite directions are overlapped and extinguished between coils or between a plurality of coils installed facing each other, and pulsating quantum energy is generated and irradiated in a zero magnetic field state, and at the same time, pulse-type high voltage is applied to the discharge electrode 221 When supplied, 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 RF coil-shaped dust collecting electrode 222 attached to the inner circumferential surface of the cylinder 222c, resulting in a choro discharge. Ionized dust is attached to the initiation and collection electrode 222 and collected. In the process of ionizing nitrogen molecules, oxygen molecules, and heavy metals contained in dust, which are air components, a pulse-shaped magnetic field and pulsating quantum energy are irradiated, The ionization rate is improved by extending the lifetime of ions, so that the collection rate is also improved in the dust collection 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 direction of current flow When a magnetic field in the form of a pulse generated at an angle of 90 degrees is generated and a high voltage in the form of a pulse is supplied to the dust collection electrode 222 at the same time, + power is supplied to the plurality of RF coil-shaped dust collection electrodes 222 installed inside the cylinder An electric field is formed and concentrated with the discharge electrode 221, and dust and contaminants ionized into negative ions are collected in a form of attachment to the dust collection electrode 222, which is shaped like a plurality of RF coils and to which + power is applied. The magnetic field is irradiated to extend the life span of ions to improve the collection rate, and pulsed magnetic fields in opposite directions overlap each other to generate and irradiate pulsating quantum energy in the zero magnetic field state that is extinguished. In (222), the dust collection rate is further improved.
The material of the bodies 201 and 202 of the first stage dust collector 210 and the second stage dust collector 220 is selected from among conductive materials such as carbon steel (ss400), copper (CU), aluminum (Al), and stainless steel. The inside is coated with an insulating material to insulate, and the outside is finished with powder coating or insulation.
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, and the dust collecting electrode ( 212,222) uses aluminum (Al) or stainless steel.
In addition, when the high-voltage DC power generated by the power supply 214 of the first-stage electrostatic precipitator 210 is supplied to the discharge electrode 211 through the wire 213, corona discharge is initiated to dissociate dust and contaminants contained in the air. And during the ionization process, electrons are received and negatively ionized, and at the same time, pulse-type power generated by the power supply 224 is installed facing each other at intervals on the outer surface of the cylinder of the main body 201, and the winding direction of the coil is opposite to each other. 1, When supplied to the second quantum energy generating coils 221a and 222a through the wire 223, the magnetic field in the form of a pulse generated at an angle of 90 degrees to the current flow is irradiated to the right in the first quantum energy generating coil 221a. In the second quantum energy generating coil 222a, it is irradiated in the left direction, and the magnetic field in the form of pulses in opposite directions is irradiated at the mid-distance point between the first quantum energy generating coil 221a and the second quantum energy generating coil 221a. Pulsating quantum energy generated in the zero magnetic field state that is overlapped and eliminated is irradiated into the air and contained, and polluted air is sucked in by the pressure of the suction fan 204 while extending and activating the residence time of the ionic material dissociated during the corona discharge process. Nitrogen oxide is injected and injected into the double-fluid nozzle 203b connected to the neck 203a of the venturi 203 during the process of passing through the first stage electric dust collector 210, the venturi ejector 203, and the second stage dust collector 220 after being pressurized. A reducing agent for removing (NOX), a sulfur oxide (SOX) removing agent, an oxygen scavenger, a hydroxyl release agent, or a particle flocculating agent is supplied and mixed with air containing anionized materials passing through the venturi ejector 203. The first and second quantum energy generating coils 221a and 221b, the third quantum energy generating coils 222a and 222c installed on the outer circumferential surface of the main body 202, and a plurality of motor stators installed on the inner circumferential surface of the cylinder 222c The fifth quantum energy generating coil, which is the 1RF coil, to which one of the shape of a field coil, a flat coil, a deformed solenoid coil, and a gradient coil is selected and applied. In the course of passing through a plurality of discharge electrodes 221 (-electrode) and dust collection electrodes 222 (+electrode) while irradiating a pulsed magnetic field and pulsating quantum energy in (222b), the first and second stages in the control panel 600 When DC power generated in the form of pulses generated by the DC high voltage generators 214 and 224 of the dust collection units 210 and 220 is supplied to the discharge electrodes 211 and 221 and the dust collection electrodes 212 and 222, electrons are obtained and negative ionized substances are transferred to the dust collection electrodes 212 and 222. The first, second, third, and fourth quantum energy generating coils 211a, 211b, 212a, 212b) and the first, second, third, fourth, and fifth quantum energy generating coils 221a, 221b, 222a, 222b, and 222d of the second-stage collector 220, the first and second-stage dust collectors 210 and 220 ) When the pulsed DC power generated by the power supplies 214 and 224 is supplied through the wires 213 and 224, the first and second quantum energy generating coils are wound in opposite directions in the first-stage electrostatic precipitator 210 (211a, 211b), the third and fourth quantum energy generating coils (212a, 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) A pulse-shaped magnetic field in opposite directions is generated, and the pulsating quantum energy generated in the zero magnetic field state where the pulse-shaped magnetic fields in opposite directions overlap each other at the center distance of the coils is extinguished, and the negative ions in the air introduced are irradiated. By extending and activating the residence time of the material and the cationic material, the ionization rate in the discharge electrode 211 is improved and the collection rate in the collection electrode 212 is improved.
In the two-stage electrostatic precipitator 220, 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 and second quantum energy generating coils 222a and 222b are wound in opposite directions to each other. A plurality of RF coils installed in 2n pieces inside the third quantum energy generating coils 221a and 222a, the second and fourth quantum energy generating coils 221a and 222b, and the cylinder 222c and wound in opposite directions to each other. Pulse-shaped magnetic fields in opposite directions are generated from the collecting electrodes 222 facing each other of the fifth quantum energy generating coil and dust-collecting electrode 222, and the pulse-shaped magnetic fields in opposite directions overlap each other at the center distance of the coils. The pulsating quantum energy generated in the zero magnetic field state is irradiated and extended and activates the residence time of anionic materials and cationic materials generated by corona discharge in the incoming air and at the discharge electrode 221, thereby extending and activating the discharge electrode 221 Reducing agent for removing nitrogen oxides (NOX) or sulfur oxides (SOX) removing agent or oxygen scavenger that improves the ionization rate, improves the dust collection rate in the dust collection electrode 222, and is injected into the two-fluid nozzle 203b connected to the venturi neck. Alternatively, the water molecules of the hydroxyl release agent or particle aggregator are irradiated with a magnetic field and quantum energy to have an electrostatic traction, cause interference at a long distance, reduce hydrogen bonding between water dipoles, and have a high degree of order, and a lump of water molecules. becomes smaller, causing the so-called 'microcluster' phenomenon, and the ordered ground state is permanently preserved, and also, by giving small electrical disturbances to the water, it causes electrical polarization, activating the additives and pollutants contained in the air. facilitates the removal of
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 the corona discharge at the discharge electrode 221 is transferred to the dust collecting electrode ( 222), the ionized material is accelerated in the direction of the collecting electrode 222, thereby improving the collecting efficiency.
The air from which pollutants and dust in the air are removed from the dust collecting unit 200 is supplied to the quantum energy generating unit 300 with the pressurized force of the fan 204 .
5 is a cross-sectional view showing the first quantum energy generator of FIG. 1. Referring to the accompanying drawings, the first quantum energy generator 310 includes a main body 301, an insulator 302 formed on the inner surface of the main body, It is composed of 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 pulsed power supply 313, and a conducting 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.
FIG. 6A is a cross-sectional view showing the first quantum energy generating coil and discharging electrode 311a and the second quantum energy generating coil and discharging electrode 312a in the form of a trigger coil or solenoid coil (first shape) of FIG. 5 .
Referring to the accompanying drawings, the first quantum energy generating coil and discharge electrode 311 is selected from among tungsten (W), titanium (Ti), stainless steel, and hastalloy materials having a certain diameter. 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 stone-shaped discharge electrodes are welded at intervals on the outer and inner surfaces of the coil wound with a certain number of turns. Alternatively, it is attached by threading, and the second quantum energy generating coil and ground electrode 312 rotates counterclockwise or clockwise at a distance from the discharge electrode protruding inside the first quantum energy generating coil and discharge electrode 311. 1. A certain number of turns is wound in the opposite direction to the winding direction of the quantum energy generating coil and discharge electrode 311, and a plurality of stone-shaped discharge electrodes 311e are welded or welded at intervals on the outer and inner surfaces of the coil. It is manufactured by attaching by threading.
6B is a cross-sectional view showing a second shape of the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312.
Referring to the accompanying drawings, the second shape is a deformed trigger coil or solenoid coil, and in the case of the first quantum energy generating coil and discharge electrode 311b, the winding direction of the coil is a certain number of turns in a counterclockwise or clockwise direction. After being wound, a certain number of turns are wound in the opposite direction, clockwise or counterclockwise, and then wound in multiple stages in the opposite direction, counterclockwise or clockwise. Referring to the accompanying drawings, the first quantum energy generating coil The discharge electrode 311b has a first stage wound in a counterclockwise direction with a certain number of turns, a second stage wound in a clockwise direction after the first stage and a constant number of turns in a counterclockwise direction after the second stage. It is finished in multiple stages such as 3 stages. The first quantum energy generating coil and ground electrode 312b is inserted into the first quantum energy generating coil and discharge electrode 311b and is wound clockwise with a certain number of turns at a distance from the discharge needle 311e. After the first stage, the second stage is wound with a certain number of turns in the counterclockwise direction, and after the second stage, the third stage is wound with a certain number of turns in the clockwise direction. A plurality of discharge electrodes 311e are manufactured by attaching them by welding or threading.
In addition, the first quantum energy generating coil and discharge electrode 311 is selected from among tungsten (W), titanium (Ti), stainless steel, and hastalloy materials having a certain diameter.
The first quantum energy generating coil and discharge electrode 311 and the second quantum energy in the form of a multi-stage trigger coil or solenoid coil in which the pulse-type power generated by the power supply 313 is wound in the opposite direction for each stage. When supplied to the coil-cum-ground electrode 312, the first quantum energy generating coil-cum-discharge electrode 311b and the second quantum energy generating coil-cum-ground electrode 312b are irradiated with magnetic fields in the form of pulses in opposite directions, and the discharge electrode ( 311, 312), pulse-type magnetic fields in opposite directions are overlapped and extinguished, and pulsating quantum energy is generated and irradiated. etc.), since the winding direction of the coil is different from each other, pulsed magnetic fields in opposite directions overlap each other at the adjacent ends (311-b1 and 311-b2, etc.) and pulsating quantum energy is generated and irradiated in a state of extinction.
In addition, since the winding direction of the coil is different for each adjacent end (312-b1 and 312-b2, etc.) in the second quantum energy generating coil and ground electrode 312b, Pulsating quantum energy is generated and irradiated in a state where magnetic fields in the form of pulses in opposite directions overlap and disappear, and adjacent ends (311-b1 and 311-b2, etc.) of the first quantum energy generating coil and discharge electrode 311b and Pulsating quantum energy is irradiated at the adjacent ends (312-b1 and 312-b2, etc.) of the second quantum energy generating coil and ground electrode 312b, respectively, and the first quantum energy generating coil and installed facing each other at a distance from each other It also functions as a multiple pulsating quantum energy irradiation device in which pulsating quantum energy is irradiated between the adjacent ends (311-b1 and 311-b2, etc.) of the discharge electrode 311b and the second quantum energy generating coil and ground electrode 31b, At the same time, multiple discharges are initiated between a plurality of discharge needles installed on the first quantum energy generating coil and discharge electrode 311b and the second quantum energy generating coil and ground electrode 31b.
6C is a cross-sectional view showing a first quantum energy generating coil and discharge electrode 311c and a second quantum energy generating coil and ground electrode 312c of a third shape in which the trigger coil of FIG. 5 is modified.
Referring to the accompanying drawings, the first quantum energy generating coil and discharge electrode 311c of the third shape has a cylindrical shape with a certain diameter and is perforated in a plurality in a rectangular shape in the circumferential direction, and the extra non-perforated A plurality of needle-shaped discharge electrodes 311e are installed in the circumferential direction in the area, and the second quantum energy generating coil and ground electrode 312c is inside the first quantum energy generating coil and discharge electrode 311c. ) and is installed at a distance from each other, and 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 end of the blade. It is used as the second quantum energy generating coil and ground electrode 312 without attachment.
The first quantum energy generating coil and discharge electrode 311c and the second quantum energy generating coil and ground electrode 312c are made of tungsten (W), titanium (Ti), stainless steel, or hastalloy. used
In addition, the first, second, and third shapes of the first quantum energy generating coil and discharge electrodes 311a, 311b, and 311c and the second quantum energy generating coil and ground electrode 312a, 312b, and 312c are provided on the inner surface of the main body. After the insulation treatment, the first quantum energy generating coil and discharge electrode 311 of any one shape selected from the first, second, and third shapes of the first quantum energy generating coil and discharge electrode 311 is installed by interviewing, A ground electrode 312 of which one shape is selected among the first, second, and third shape second quantum energy generating coils and ground electrodes 312a and 312b is placed at intervals inside the discharge electrode 311 installed on the partition plate. (not shown) can be used to install.
The material of the first quantum energy generating coil and discharge electrodes 311a, 311b, and 311c and the second quantum energy generating coil and ground electrode 312a, 312b, and 312c is selected from tungsten (W), stainless steel, and hastalloy. Any one or more materials are selected and used.
6D is a cross-sectional view showing the power supply of the first quantum energy generator 310 shown in FIG.
Referring to the accompanying drawings, the power supply 313 includes a rectifier unit 313a, a converter unit 313b, an inverter unit 313c, a resonance reactor 313d, a pulse transformer 313e, 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) function built-in controller 313f, gate driver 313g, It is composed of one condenser yarn 313h and a second condenser yarn 313i.
The rectifier 313a converts the input single-phase 220V60Hz AC power into DC voltage.
The converter unit 313b boosts the DC voltage converted from AC power to DC power in the rectification 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) type voltage.
The resonance reactor 313d matches 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 transform unit 313e boosts the output voltage of the inverter unit 313c. The pulse amplitude of the switching output of the first quantum energy generation coil and discharge electrode 311, the second quantum energy generation coil and ground electrode 312 receiving the output voltage of the pulse transformer 313e, and the inverter unit 313c. In order to perform modulation (PAM), a signal controlling the output voltage of the converter unit 313b is formed, and the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 A control unit 313f that forms a signal capable of pulse frequency (density) control (PDM) independently of the amplitude of the pulse to control the amount of quantum energy generated by adjusting the strength of the generated magnetic field, and the control unit 313f applied A gate driver 313g amplifies the voltage of the control signal and applies it to the converter 313b and the inverter 313c.
Here, by reducing the ripple of the voltage rectified through the rectifying unit 313a, the voltage of the first capacitor 313h is input to the converter unit 313b through the first condenser 313h and the converter unit 313b. The second capacitor 313i reduces the ripple of the boosted DC voltage so that the second capacitor 313i is input to the inverter 313c.
The supplied AC power is converted into DC voltage in the rectifying unit 313a, the DC voltage is boosted in the converter unit 313b through a switching operation, and then the DC voltage boosted in the inverter unit 313c is converted to an AC pulse (Pulsed electromagnetic field); PEMF) type voltage, and then the pulse transformer 313e boosts the output voltage of the inverter unit 313c to form the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode ( 312).
In addition, an input unit (not shown) is separately built inside the control unit 313f, so that the user can use the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312. Current value supplied, Voltage value, frequency value, power supply time and stop time (timer function) can be input to the input part.
The pulsed electromagnetic field (PEMF) type of power generated by the power supply 313 is passed through the wire 314 to the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 When supplied to, a magnetic field in the form of a pulsed electromagnetic field (PEMF) is generated at an angle of 90 degrees to the direction of current flow in opposite directions between the discharge electrode 311 and the ground electrode 312, and the Lorentz force acts, discharging As the magnetic field in the form of a pulsed electromagnetic field (PEMF) overlaps and disappears between the electrode 311 and the ground electrode 312, pulsating quantum energy is irradiated in a zero magnetic field state, and at the same time, discharge starts and a high field energy band is formed. , 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), and volatile organic compounds (VOCs) are applied to purify the electrochemical half of dissociation, excitation, ionization, oxidation, and reduction reactions, and at the same time avian influenza (AI) , foot-and-mouth disease (FMD), Edwardsiella tarda in fish farms, Streptococcus iniae or vibrio ichtyoenteri, fungi in food processing facilities and living spaces, Pseudomonas aeruginosa, Bacteria such as Staphylococcus aureus, Pneumococcus pneumoniae, Legionella and MRSA [methicillin-resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis)] and variant viruses, Mycobacterium tuberculosis (Mycobacterium tuberculosis), Mycobacterium avium (Mycobacterium avium), drug-resistant blood. Aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohemorrhagic E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis, Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Shigella flexneri ( Shigella Flexneri), mutant virus (MRSA), MERS coronavirus (MERS-COV), Ebola virus, SARS-COV, bacteria, etc. The cell membrane is perforated and sterilized by oxygen (1O2) and hydroxyl (OH-) radicals, and a pulsed electromagnetic field (PEMF) type magnetic field generated between the discharge electrode 211 and the ground electrode 212 is irradiated And pulsed electromagnetic field (PEMF) type magnetic fields are irradiated with pulsating quantum energy generated by overlapping annihilation to further facilitate air purification and sterilization to improve efficiency.
In addition, the discharge needles 311e and 312e, which have a diameter in the range of 2 mm to 5 mm in the circumferential direction on the outer surface and inner surface of the coil and are machined into a conical shape at the end, are spaced apart in the circumferential direction by a method such as argon welding. A plurality of them are attached to improve the discharge efficiency by electric field concentration.
FIG. 7 is a cross-sectional view showing the second quantum energy generator of FIG. 1 .
Referring to the accompanying drawings, the second quantum energy generator 320 includes a housing 301, a first gradient saddle coil 322-1a and a first discharge electrode 322-2a, a 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, high voltage generator 328, and wire 329 do.
As shown in FIG. 8A, the first gradient saddle coil 322-1a and the first discharge electrode 322-2a are coated with an insulating material on the circumferential surface of the upper part of the body 301, and after insulation treatment, the insulating layer is The interview is installed on the upper side, and the second gradient saddle coil (322-1b) and second discharge electrode (322-2b) face the first gradient saddle coil (322-1a) and first discharge electrode (322-2a). An insulating material is applied on the circumferential surface of the lower part of the body 301, and after insulation treatment, the insulating layer is interviewed and installed on the lower side. The first gradient saddle coil 322-1a and the first discharge electrode 322-2a It is installed in the opposite direction to the winding direction of the second gradient new coil 322-1b and the second discharge electrode 322-2b.
In addition, a plurality of first discharge electrodes 322-2a processed into a pointed shape (needle-like structure) having a predetermined length are installed on one side (opposite direction in contact with the main body) of the first gradient saddle coil 322-1a. In addition, a plurality of second discharge electrodes 322-2b processed into a pointed shape (needle-shaped structure) are installed on one side (opposite direction contacting the main body) of the second gradient coil 322-1b at intervals.
As shown in FIG. 8B, the deformed trigger coil and ground electrode 323 has a hollow cylindrical shape (cylinder), and has a plurality of elliptical holes perforated in the circumferential direction of the outer surface, and on the non-perforated circumferential surface A plurality of protruding discharge needles are installed in the circumferential direction on the inside and outside of the ground electrode 323 at intervals to form the first gradient saddle coil 322-1a and the first discharge electrode 322-2a and the second gradient saddle It is installed on a fixed plate (not shown) at intervals inside the concentric circle formed by the coil 322-1b and the second discharge electrode 322-2b, and at intervals inside the deformed trigger coil and ground electrode 323, FIG. 8C As shown in Fig. 3, the third discharge electrode is processed into a deformed trigger coil shape in which a plurality of discharge needles are processed into a spiral screw shape and have a sharp tip (needle structure) at intervals in the circumferential direction at the edge of the screw. 324 is installed on a fixing 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 ), the material of the deformed trigger coil and third electrode 324 is selected from tungsten (W), titanium (Ti), stainless steel, and hastalloy.
The +power on the output side of the power supply 328 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 the third discharge electrode 324 processed in the shape of a trigger coil and connected to the output side of the power supply 328 -power is connected to the deformed 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: Control unit 307 composed of a control module 327c with built-in pulse width modulation (PFM) control method, pulse frequency modulation (PFM), pulse frequency (density) control (PDM), and pulse repetition rate control (PRR) functions ,Consisting of a switching element 328a, when single-phase 220V, 60Hz AC power is supplied to the step-up transformer 325, the step-up transformer 325 steps up and rectifies the single-phase 10KV to 500KV, 1KHz to 300KHz AC power range In circuit 326, it is converted to DC power.
The input module 327a of the control unit 327 outputs the step-by-step voltage value V of DC power supplied to the first and second quantum energy generation coils 322-1a and 322-1b, that is, the first and second quantum energy generation coils 322-1a and 322-1b. 2 The minimum (mA) and maximum value (A) of the variable current flowing in the quantum energy generation coils (322-1a, 322-1b), the minimum value (mT) and maximum value (T) of the variable magnetic field, and the power supply time for each step ( Seconds to minutes, or minutes to hours) supplied current value, voltage value, pulse width, pulse density, pulse period, frequency burst length, main power supply time and stop time (timer function), variables such as switching element function ( Parameter) in the internally built-in program, the user sets the operation step among the steps divided into steps 1 to 10, for example, by setting each variable (Parameter) on the monitor (not shown) of the input module 327a, and then Enter the data of the selected step.
The calculation module 327b executes an calculation program for a plurality of parameters input by the user in the input module 327a to generate the first gradient saddle coil 322-1a and the first discharge electrode 322 for generating variable quantum energy. -2a), the second gradient saddle coil (322-1b) and the second discharge electrode (322-2b), the third electrode 324 processed into a modified trigger coil shape, and the modified trigger coil and ground electrode 323 The amount of current corresponding to the strength of the magnetic field to be generated and the amount of current required for the arc discharge are calculated. Corresponding data may be generated in advance to generate the current value in the form of one-to-one matching of the magnetic field strength value and the current value.
For example, when the strength value of the magnetic field is between 1 and 10, data for a current value between 1 and 10 is generated, and when the strength value of the magnetic field is 1, a pulse having a current value corresponding to 1 (Pulsed electromagnetic field; PEMF) form of power is generated to form the first gradient saddle coil (322-1a) and first discharge electrode (322-2a) and the second gradient saddle coil (322-1b) and second discharge electrode (322). -2b), when supplied to the deformed trigger coil and ground electrode 323 and the deformed trigger coil and discharge electrode 324, first installed on the top, bottom or left and right inside the main body 301, and winding directions are wound in opposite directions to each other. 1 The first gradient saddle coil ( 322-1a) and the first discharge electrode 322-2a, the current flows from the right to the left, from the left to the upper semicircular direction, from the semicircular direction to the right, and from the right to the semicircular direction multiple times, and at the same time turning A high voltage is applied to the shaped first discharge electrode (322-2a), and the current flows in the second gradient saddle coil (322-1b) and second discharge electrode (322-2b) from right to left and left. in the lower semicircular direction, in the lower semicircular direction to the right direction, in the right direction to the lower semicircular direction, and in the lower semicircular direction to the left direction multiple times, and at the same time, the high voltage is applied to the pendulum-shaped second discharge electrode 322-2b. 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 322-1b are formed at an angle of 90 degrees to the direction of current flow. In 2b), a magnetic field in the form of a pulsed electromagnetic field (PEMF) in the opposite direction is irradiated, and in the first gradient saddle coil (322-1a) and first discharge electrode (322-2a), pulsed electromagnetic field from top to bottom. ; PEMF) form of magnetic field and, in the second gradient coil 322-1b and the second discharge electrode 322-2b, pulses from the bottom to the top (Pulsed electromagnetic field; As a PEMF type magnetic field is irradiated, pulsed electromagnetic field (PEMF) type magnetic fields overlap and disappear at the center of the main body 301, and pulsating quantum energy is generated in a zero magnetic field state, resulting in contamination flowing into the main body. As the air is irradiated, discharge starts and a high electric field electron energy band is formed between the deformed trigger coil/ground electrode 323 and the deformed trigger coil/discharge electrode 324 at the same time, and the contaminated 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, methylamine, triethylamine, 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), Substances such as acid gases (Hcl, HNO3, H2SO4) and volatile organic compounds (VOCs) are thermally decomposed, continuously collide with thermal electrons to dissociate (ionize) and ionize, and are purified by a catalytic reaction. Foot-and-mouth disease (FMD), Edwardsiella tarda, Streptococcus iniae or vibrio ichtyoenteri, fungi in food processing facilities and living spaces, Pseudomonas aeruginosa, Staphylococcus aureus , Pneumococcus pneumoniae, bacteria such as Legionella and MRSA [methicillin-resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis)] and variant viruses, Mycobacterium tuberculosis (Mycobacterium tuberculosis), Mycobacterium avium (Mycobacterium avium), drug-resistant blood. Aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohemorrhagic E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis, Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Shigella flexneri ( Shigella Flexneri), mutant virus (MRSA), MERS coronavirus (MERS-COV), Ebola virus, SARS coronavirus (SARS-COV), bacteria, etc. sterilize harmful bacteria and floating viruses, and these series of processes are in progress While the first gradient saddle coil (322-1a) and first discharge electrode (322-2a), the second gradient saddle coil (322-1b) and second discharge electrode (322-2b), the modified trigger coil and ground electrode ( 323), the current value in the deformed trigger coil-shaped second discharge electrode 324 is the first gradient saddle coil 322-1a, the first discharge electrode 322-2a, and the second gradient saddle coil 322-1b ) and the second discharge electrode 322-2b, the modified trigger coil and ground electrode 323, and the first current detection sensor (not shown) installed on the lead-in line of the modified trigger coil-shaped second discharge electrode 324. 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 sent to the calculation unit (Feed Back), the calculation unit 327b calculates the input unit 327a for each variable and calculates the set current value and the detection sensor 328a. As a result of comparative analysis with the transmitted current value, when the set current value deviates from the lower and upper limit values, the difference value (Gab) is analyzed, recalculated to fit the lower and upper limit values, and the corrected current value is sent to the current control module 327c. The current control module 327c that transmits and receives the modified current value is the first gradient saddle coil 322-1a, the first discharge electrode 322-2a, and the second gradient saddle coil ( 322-1b) and the second discharge electrode 322-2b, the modified trigger coil and ground electrode 323, and the modified trigger coil and discharge electrode 324 are supplied with DC power to generate high voltage discharge while irradiating pulsating quantum energy. It purifies pollutants in the air and sterilizes airborne bacteria through an electrochemical reaction.
In addition, the first and second gradient saddles of the first gradient saddle coil 322-1a and first discharge electrode 322-2a and the second gradient saddle coil 322-1b and 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 used as uniform saddle coils. saddle coil) can be used instead.
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 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 coated with an insulating material on the upper circumferential surface of the inside of the main body 301, and after insulation treatment, the upper part is interviewed with the insulating layer. side, the second uniform saddle coil 322-1b and the second discharge electrode 322-2b are the first uniform saddle coil 322-1a and the first discharge electrode ( 322-2a), an insulating material is applied on the inner circumferential surface of the lower part of the main body 301 facing each other, and after insulation, the insulation layer is interviewed and installed on the lower side. A first uniform saddle coil (322-1a) 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 installed so that the direction of current flow is in the same direction. .
In addition, the wound first uniform saddle coil 322-1a and the first discharge electrode 322-2a and the second uniform saddle coil 322-1b and the second discharge electrode 322 On -2b), a plurality of protruding discharge electrodes are installed at regular intervals. The modified trigger coil and ground electrode 323, which is in the form of a cylinder and has a plurality of protruding discharge electrodes installed 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 circle formed. A deformed trigger coil and third discharge electrode 324 is installed at intervals inside the deformed trigger coil and ground electrode 323, and the outer surface of the deformed trigger coil and third discharge electrode 324 protrudes in a circumferential direction. A plurality of discharge electrodes of the form are installed.
The power supply 328 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 arithmetic module 327b, and a PWM (pulse width) Modulation: A control unit 327 composed of a control module 327c with built-in pulse width modulation (PFM) control method, pulse frequency modulation (PFM), pulse frequency (density) control (PDM), and pulse repetition rate control (PRR) functions. , Switching element 328), when single-phase 220V, 60Hz AC power is supplied to the step-up transformer 325, the step-up transformer 325 is in the range of 10KV to 500KV single-phase, step-up to AC power in the range of 1KHz to 300KHz, It is converted into DC power in the rectifier circuit 326.
The input module 327a of the controller 327 includes a first uniform saddle coil 322-1a, a first discharge electrode 322-2a, and a second uniform saddle coil 322-1a. 1b) and the second discharge electrode (322-2b), the modified trigger coil and ground electrode 323, the voltage value (V) of the DC power supplied to the modified trigger coil and the third discharge electrode 324, variable current The minimum (mA) and maximum value (A), the minimum (mT) and maximum value (T) of the variable magnetic field, the supplied current value, voltage value, such as step-by-step power supply time (seconds to minutes, or minutes to hours), The input module 327a monitors variables (parameters) such as pulse width, pulse density, pulse period, frequency burst length, main power supply time and stop time (timer function), switching element function, etc. For each parameter (not shown), for example, an operation step among steps classified from 1 to 10 is set, and then the data of the selected step is input.
The calculation module 32b executes an calculation program for a plurality of parameters input by the user into the input module 32a to generate a pulsed electromagnetic field (PEMF) type first uniform saddle coil (Uniform saddle coil) for generating a magnetic field coil) (322-1a) and first discharge electrode (322-2a) and first uniform saddle coil (322-1b) and second discharge electrode (322-2b) Amount of current corresponding to the strength of the magnetic field to be generated And to calculate the amount of current required for the arc discharge, the current value can be generated in the form of one-to-one matching of the magnetic field strength value and the current value by generating corresponding data in advance. For example, when the strength value of the magnetic field is between 1 and 10, data for a current value between 1 and 10 is generated, and when the strength value of the magnetic field 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 -1b) and the first discharge electrode (322-2b), the modified trigger coil and ground electrode 303, and the modified trigger coil and third discharge electrode 324 are supplied to the upper and lower parts of the main body 301, A first uniform saddle coil (322-1a), a first discharge electrode (302-2a), and a second uniform saddle coil (322-1b) in which winding directions are wound in the same direction as each other Power is supplied to the second discharge electrode 322-2b to form a first uniform saddle coil 322-1a and a first discharge electrode 322-2a and a first uniform saddle coil 322 -1b) In the second discharge electrode (302-2b), the current flows from the right to the left, from the left to the upper semicircular direction, from the semicircular direction to the right, and from the right to the semicircular direction multiple times, and at the same time turning A high voltage is applied to the shaped discharge electrode (322-1a) to form a first uniform saddle coil (322-1a) and first discharge electrode (302-2a) at an angle of 90 degrees in the direction of current flow. 2 The uniform saddle coil (322-1b) and the second discharge electrode (322-2b) irradiate a magnetic field in the form of pulsed electromagnetic field (PEMF) in the same direction. coil) (322-1a) and the first discharge electrode (322-2a) in the upper direction and the second uniform saddle nose Pulsed electromagnetic field from the bottom to the top in the uniform saddle coil 322-1b and the second discharge electrode 322-2b; As a PEMF type magnetic field is irradiated, an upper and lower pulsed electromagnetic field (PEMF) type magnetic field is generated inside the main body 301 and irradiated to the contaminated air flowing into the main body, and the deformed trigger coil at the same time. Discharge starts and a high electric field electron energy band is formed between the current and ground electrode 323 and the modified trigger coil and discharge electrode 324, and the air contained in the contaminated air passing through this band, ammonia, and hydrogen sulfide in the contaminated air , methyl mercaptan, methyl sulfide, methyl isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methylamine, triethylamine, acetic acid, valeric acid, dimethyl sulfide butylaldehyde, ethylbenzene, xylene, disulfide Carbon, sulfur oxides (SOx), 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, continuously collide with thermal electrons, are dissociated (ionized) and ionized, and are purified by a catalytic reaction. Bacteria such as Edwardsiellus Tarda, Streptococcus iniae or vibrio ichtyoenteri, fungi in food processing facilities and living spaces, Pseudomonas aeruginosa, Staphylococcus aureus, Pneumococcus, Legionella, etc. MRSA [Methicillin Resistant S. aureus], MRSE [methicillin-resistant S. Epidermidis (S. epidermidis)] and variant viruses, Mycobacterium tuberculosis (Mycobacterium tuberculosis), Mycobacterium avium (Mycobacterium avium), drug-resistant blood. Aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohemorrhagic E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis, Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Shigella flexneri ( Shigella Flexneri), mutant virus (MRSA), MERS coronavirus (MERS-COV), Ebola virus, SARS coronavirus (SARS-COV), bacteria, etc. are sterilized harmful bacteria and floating viruses, and these series of processes are in progress While the first uniform saddle coil (322-1a) and the first discharge electrode (322-2a) and the second uniform saddle coil (322-1b) and the second discharge electrode (322-2b) ), the modified trigger coil and ground electrode 303, and the modified trigger coil and discharge electrode 324, the current value is converted into the first uniform saddle coil 322-1a and the first discharge electrode 302-1a. 2a), the first uniform saddle coil (322-1b) and the second discharge electrode (302-2b), the modified trigger coil and ground electrode 303, and the modified trigger coil and discharge electrode 304 When the current detection sensor installed on the incoming wire detects the current value flowing through these coils in real time and sends it to the calculation unit (Feed Back), the calculation unit 327b calculates the input unit 327a for each variable and sets the 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) when it is detached, it is recalculated to fit the lower limit value and the upper limit value, and then the corrected current value is transmitted to the current control module (327c), and the current control module (327c) receiving the corrected current value is the first uniform saddle coil (322-1a) and first discharge electrode (302-2a), the second uniform saddle coil (322-1b) and the second uniform saddle coil (322-1b) DC power is supplied to the two-discharge electrode (302-2b), the modified trigger coil and ground electrode 303, and the modified trigger coil and discharge electrode 304 to investigate the pulsating quantum energy, and the electrochemical reaction by the high voltage discharge causes air It purifies heavy pollutants and sterilizes floating bacteria.
In addition, the first uniform saddle coil (322-1a) and first discharge electrode (302-2a), the second uniform saddle coil (322-1b) and second discharge electrode (302-1b) 2b), the modified trigger coil and ground electrode 323, and the modified trigger coil and discharge electrode 324 include 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 selected from one or more catalyst materials (not shown) are coated.
9 is a cross-sectional view showing the third quantum energy generator with a built-in discharge function of FIG. 1. Referring to the accompanying drawings, the third quantum energy generator 330 includes a housing 301 and a first gradient coil. (331), the second gradient coil 332, the power supply 333, the quantum energy generator 330; and the first quantum energy generating coil and discharge electrode 334, the second quantum energy generating coil and ground electrode 335, a high voltage generator 336, and a discharge unit 340 composed of a conducting wire 336f.
The housing 301 selects any one shape from among shapes such as a cylinder, a regular hexahedron, and a rectangular parallelepiped. In the present invention, when a cylindrical shape is selected and described, the material of the main body is acrylic, plastic material, glass fiber molding (FRP) Select and use any one of the non-conductive materials such as polyethylene (PE), or select and use one of the conductive materials such as carbon steel (CS), stainless steel, copper (CU), and aluminum (AL). It can be used after insulating by applying an insulating material of epoxy material to the outer surface.
The first quantum energy generating coil 331 and the second quantum energy generating coil 332 of the quantum energy generator 330 are in the shape of inclined coils or toroid coils and have a predetermined length so as to cover less than 50% of the entire outer surface of the housing. It is installed to face each other (up and down or left and right) in the circumferential direction of the surface, and the winding directions of the coils 331 and 332 are installed in opposite directions to each other.
The power supply 333 of the quantum energy generator 330 is located on one side of the outer surface of the housing 301 at a distance from the installation position of the first gradient quantum energy generating coil 331 and the second gradient 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 with a conducting wire 333a to supply pulsed power generated by the power supply 333.
The inclined coil is referred to as a pancake coil or a saddle coil.
When pulse-type power generated by the power supply 333 is supplied to the first quantum energy generating coil 331, a pulsed electromagnetic field (PEMF)-type magnetic field is generated at an angle of 90 degrees in the direction of current flow from the upper direction to the lower part of the housing. direction, and when the pulse-type power generated by the power supply 333 is supplied to the second quantum energy generating coil 332, a pulsed electromagnetic field (PEMF)-type magnetic field is generated at an angle of 90 degrees to the current flow direction. When irradiated from the bottom of the housing to the top, magnetic fields in the form of pulsed electromagnetic fields (PEMF) in opposite directions overlap and disappear at the center of the housing, and pulsating quantum energy is generated in the first magnetic field state, which is installed inside the housing. The first quantum energy generating coil and discharge electrode 334, the second quantum energy generating coil and ground electrode 335, and the air containing pollutants passing through these discharge electrodes 334 and 335 are irradiated.
Step-up transformer (333a), rectifier circuit (333b), input module (333c-1), calculation module (433c-2), and PWM (Pulse Width Modulation) control method and pulse frequency modulation PFM (pulse frequency modulation) ) and a control module (333c-3) with built-in pulse frequency (density) control (PDM) and pulse repetition rate control (PRR) functions. When power is supplied to the step-up transformer 333a, the step-up transformer 333a is in the single-phase range of 1KV to 300KV and is regulated in the range of 1KHz to 500KHz to generate pulsed electromagnetic field (PEMF) type output-side variable power to the first gradient quantum When the energy generating coil 331 and the second gradient quantum energy generating coil 332 are wound with a certain number of turns in the opposite direction to the winding direction of the first gradient quantum energy generating coil 331, they are mutually perpendicular to each other at an angle of 90 degrees in the current flow direction. A variable magnetic field in the form of a pulsed electromagnetic field (PEMF) is generated in the center between the first gradient quantum energy generating coil 331 and the second gradient quantum energy generating coil 332, pulses in opposite directions ( As the variable magnetic field in the form of pulsed electromagnetic field (PEMF) overlaps and disappears, the pulsating quantum energy generated in the zero magnetic field state is 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 introduced between the discharge electrodes 334 and 335 are irradiated.
10A is a cross-sectional view showing the high voltage discharge part of the third quantum energy generator of FIG. 9 . 10, the high voltage discharge unit 339 includes a first quantum energy generating coil 334a and a discharge electrode 334, a second quantum energy generating coil 335a and a ground electrode 335, and a high voltage generator 336 ), a conducting wire 336a, a first fixing stand 337a and a second fixing stand 337b, and a gap retaining nut 338.
The fabrication of the first quantum energy generating coil 334a and discharge electrode 334 and the second quantum energy generating coil 335a and ground electrode 335 has a rectangular height selected from Teflon, ceramic, and glass materials. Holes (not shown) into which fixtures 337a and 337b will be inserted are perforated at intervals on the upper and lower surfaces of a plurality of different insulating plates, and any one of tungsten (W), stainless steel, and titanium (Ti) is formed on both surfaces. The coil is wound in a clockwise or counterclockwise direction in a deformed inclined coil shape or toroid coil shape with wire of selected material, but the winding directions of the coils attached to the front and back sides are opposite to each other, and the exposed coil is uniformly The first quantum energy generating coil and discharge electrode 334 and the second quantum energy generating coil and ground electrode 335 are manufactured by attaching discharge needles 334a and 334b having a certain length at intervals.
Alternatively, a metal plate made of copper (Cu), stainless steel, titanium (Ti), or silver (Ag) is deformed in a clockwise or counterclockwise direction using a model picking technology using a laser to form an inclined coil or toroid coil shape, and A hole (not shown) into which the fixtures 337a and 337b will be inserted is punched, and on both surfaces, a coil-shaped plate material selected from among tungsten (W), stainless steel, and titanium (Ti) has a certain length. 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 spaced apart from each other, urethane, except for the discharge needle, One insulation material is selected from among polyester, acrylic, alumina (Al2O3), silica (SiO2), and magnesia (MgO), and one of ALD/CVD, sputter, evaporation, and Sol-gel processing methods is used for insulation treatment. After manufacturing the first quantum energy generating coil 334a and discharge electrode 334 and the second quantum energy generating coil 335a and ground electrode 335 and removing the shrink tube attached to both ends or one end, The discharge electrodes 334 and 335 are inserted into the first fixing table 337a and the second fixing stand 337b so that the coil shapes (wound shapes) processed into the first and second inclined coils 331 and 332 are in opposite directions to each other. After inserting into the first fixing stand 337a and the second fixing stand 337b and firmly fixing the gap maintenance and discharge electrodes 334 and 335 with a fixed nut 338 in the middle, fix them to the fixtures 337a and 337b installed inside the housing do.
The high voltage power supply 336 of the high voltage discharge unit 339 is installed on one side of the housing 301 and transmits the generated high voltage in the form of a pulsed electromagnetic field (PEMF) through a 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.
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 an AC power supply (AC) supply 336a, the step-up transformer (not shown) steps up the AC power in the range of 1KV to 500KV and 60Hz to 300KHz to generate an oscillator. (336b-1), a frequency distribution unit (336b-2), a control unit (336b-3), and an amplifier (336b-4) when supplied to the high-frequency generation and output unit (336b) in the oscillator (336b-1) Data necessary for treatment is programmed in advance to be input to the control unit 336e, and appropriate electromagnetic waves 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 are generated. and applied to the frequency distributor 336b-2, the electromagnetic waves generated by the oscillator 336b-1 in the frequency distributor 336b-2 are transferred to the first quantum energy generating coil 334a and the discharge electrode 334, The magnetic fields of different directions are overlapped in the 2 quantum energy generating coil 335a and ground electrode 335 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 to the amplifier 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 discharge electrode 334, and the second quantum energy generating coil 335a. ) and ground electrode 335 to irradiate a magnetic field in the form of a sufficient pulse (Pulsed electromagnetic field; PEMF) and amplify it to irradiate pulsating quantum energy to generate power in the form of a pulse (Pulsed electromagnetic field; PEMF) through the switching element 336d. through 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, the quantum energy generating coils 334a and 335a of the discharge electrodes 334 and 335 to As discharge starts at the same time from a plurality of needle-shaped discharge electrodes installed at intervals along the line, a high-field electronic energy band is formed, and the air contained in the contaminated air passing through this band, ammonia, hydrogen sulfide, methyl mercaptan, methyl sulfide, and methyl in the contaminated air Isobutyl ketone, propionic acid, acetaldehyde, methyl ethyl ketone, methylamine, triethylamine, acetic acid, valeric acid, dimethyl sulfide butylaldehyde, ethylbenzene, xylene, carbon disulfide, sulfur oxides (SOx), organic Substances such as solvent soluble fractions (SOF), sulfur oxides (SOx), nitrogen oxides (NOx), fluorine compounds (PFCs, HFCs), acid gases (Hcl, HNO3, H2SO4), volatile organic compounds (VOCs) This thermal decomposition, continuous collision with thermal electrons, dissociation (ionization) and ionization, purification by catalytic reaction, and at the same time avian influenza (AI), foot-and-mouth disease (FMD), Edwardsiella tarda (Edwardsiellus Tarda), streptococcus Bacteria such as Streptococcus iniae or Vibrio ichtyoenteri, fungi 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 variant viruses, Mycobacterium tuberculosis (Mycobacterium tuberculosis), Mycobacterium avium (Mycobacterium avium), drug-resistant blood. Aeruginosa (P. aeruginosa), enterotoxin production E. E. coli, enterohemorrhagic E. coli, Klebsiella pneumoniae, Clostridium difficile, Heliobacter pylori, Legionella pneumophila, Enterococcus faecalis, Enterobacter cloacae, Salmonella typhimurium, Proteus vulgaris, Yersinia enterocolitica, Vibrio cholerae, and Shigella flexneri ( Shigella Flexneri), mutant virus (MRSA), MERS coronavirus (MERS-COV), Ebola virus, SARS corona virus (SARS-COV), and bacteria.
The first quantum energy generator 336b is constituted by the first gradient coil 331, the second gradient coil 332, the power supply 333, and the conductive wire 333a in which the coils are wound in opposite directions. can
The pulse-type power generated by the power supply 333 is passed through the wire 333a to the first gradient coil 331 and the second gradient coil 332, the winding directions of which coils are wound in opposite directions, to the first gradient coil 331 and the second gradient coil 332. When supplied to the 331 and the second gradient coil 332, magnetic fields in the form of pulses in opposite directions are irradiated in the direction of current flow, and magnetic fields in the form of pulses in opposite directions are applied to the first gradient coil 331 and the second gradient Pulsating quantum energy is generated in a zero magnetic field state as it overlaps and disappears at the center distance of the coil 332 .
The second quantum energy generator 336b composed of the first quantum energy generating coil 334a, the second quantum energy generating coil 335a, the high voltage generator 336, and the conducting wire 336a in which the winding directions of the coils are wound in opposite directions. ) can be configured.
The pulse-type power generated by the power supply 336 is supplied to the first quantum energy generating coil 334a and the second quantum energy generating coil 335a, the coils of which are wound in opposite directions, through the wire 336a. When a plurality of installed first quantum energy generating coils 334a and second quantum energy generating coils 335a are supplied, magnetic fields in the form of pulses in opposite directions are irradiated in the direction of current flow, and magnetic fields in the form of pulses in opposite directions are irradiated. Multiple pulsating quantum energy is generated in a zero magnetic field state as the plurality of installed first quantum energy generating coils 334a and second quantum energy generating coils 335a are overlapped and annihilated at respective center distances.
11 is a cross-sectional view showing the fourth quantum energy generator with a built-in discharge function of FIG. 1. Referring to the accompanying drawings, the fourth quantum energy generator 340 includes a main body 301, an outer cylinder 302, The inner cylinder 303, the first generating coil and heating coil 341a installed on one side of the outer cylinder 302, the first power supply source 341b for the first generating coil and heating coil 341a, and the outer cylinder 301a 1 cathode 343a, a second power supply source 343b for the first cathode 343a, a second generating coil/heating coil 343a installed on the circumferential surface of one outer side of the inner cylinder 301b, and a second quantum energy generation A third power supply source 342b for the coil and heating coil 343a, a jacket-shaped second housing and second cathode 344a, a fourth power supply source 344b for the second cathode 344a, and an external cylinder 301a. A discharge electrode 345a installed on the inner circumferential surface and a ground electrode 345b installed on the outer circumferential surface of the jacket-shaped second housing and second cathode 344a, the discharge electrode 345a, and the ground electrode 345b The high voltage discharge unit 345 composed of the fifth power supply 345c for supplying high voltage to the first spur gear 346a installed on one circumferential surface of the inner cylinder 301b, the first spur gear 346a, The second spur gear 346b installed in mesh with the second spur gear 346b and the electric motor 346c connected by an axis to the first rotating body 346 rotating the inner cylinder and one side circle of the inner cylinder 301b The first and second rotating body fastening mechanisms 346d, which are installed in plurality at a distance on the main surface, the first spur gear 347a installed on the outer circumferential surface of the first fixture, and the teeth mesh with the first spur gear 347a The second rotating body 347 and the first and second rotating bodies 346 and 347 composed of an installed second spur gear 347b and an electric motor 347c connected to the second spur gear 347b by an axis to rotate the inner cylinder. ) of the first spur gears 346a and 347a and a plurality of rotation body fastening mechanisms 346d installed at intervals to the left.
The inner cylinder 303 of the fourth quantum energy generating unit 340 has a cylindrical shape, one part of the outer side of which is insulated, and a second quantum energy generating coil and heating coil 342a wound on the circumferential surface is installed, and the first quantum energy generating coil 342a is installed. The housing 303a, which is in the shape of a jacket that embraces the energy generator and heating coil 342a and serves as the second cathode 344a, is insulated from the main body 301 and installed by interviewing, and the outer surface of the jacket-shaped housing 303a A solenoid-shaped ground electrode (345b) wound on the circumferential surface by interviewing on the circumferential 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) are engaged. A first spur gear 346b is installed, and the first spur gear 346b is connected to the second electric motor 346c by a shaft, and a rotational fastening mechanism 346d is installed on one side of both end surfaces at intervals, and the second both The 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 configure 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 generator 340 has a conical shape at both ends and a cylindrical shape in the middle, a solenoid coil shape or trigger-shaped discharge electrode ( 345a) is installed, the outer cylinder portion corresponding to 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 that embraces the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated, and a first quantum energy generating coil and heating coil 341a is installed on the circumferential surface, and a rotating body fastening mechanism 347d is installed on one side of both end surfaces, 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 power generated by the first and second power supplies 341b and 342b or the DC power in the form of a pulse is in the form of a solenoid coil or trigger coil, and the winding directions are wound in opposite directions to the first and second quantum energy generating coils and heating. It is supplied to the heaters 341a and 342a and irradiates the first and second cathodes 343a and 344a with a magnetic field or pulsed magnetic field at an angle of 90 degrees in the direction of current flow, thereby overcoming the work function value of the heating heater material. When heated to a temperature of 5000 ° C or higher, thermal electrons are emitted from the surface of the material, and the power generated by the first power supply 341b and the third power supply 343b constituting the bias circuit or power in the form of a pulse is transferred to the first cathode 343a. ) and at the same time supplying power generated in the second power supply 342b and the fourth power supply 344b constituting the bias circuit or power in the form of a pulse to the second cathode 344a, the first and second both Thermal electrons emitted from the material surface of the energy generating coil and heating heaters 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. The material surface of the first and second cathodes 343a and 344a is heated to a temperature higher than the temperature at which the work function value can be overcome, and thermal electrons are emitted from the surface of the material toward the discharge electrode 345a and the ground electrode 345b. When the AC high voltage or DC high voltage generated by the supply unit 345c is applied, discharge is initiated between the discharge electrode 345a and the ground electrode 345b, and the contaminated air introduced by the pressure of the pressurizing fan 204 is removed. Electrochemical reactions such as heating, pulsed magnetic field irradiation, pulsating quantum energy irradiation, thermionic emission and dissociation of impact high voltage discharge, ionization, excitation, oxidation, and reduction reactions purify odor-causing substances and harmful water in polluted air, Bacteria and viruses in the contaminated air are sterilized and sterilized, 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 coils and heating heaters 341a and 343a are wound in opposite directions to each other, and the power generated by the first power supply 341b is converted into the first quantum energy generating coil and heating heater ( 341a) and when the power generated by the first power supply 341b is supplied to the second quantum energy generating coil and heating heater 343a, a pulsed magnetic field is generated at an angle of 90 degrees to the direction of current flow. The winding directions of the second quantum energy generating coils and heating heaters 341a and 343a are opposite to each other, so that the pulse-shaped magnetic fields in opposite directions are located at the center of the passage through which the polluted air passes, which is the center distance of the coils 341a and 343a. Pulsating quantum energy is created and irradiated in a zero magnetic field state by being overlapped and annihilated. Therefore, 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 discharging electrodes 345a and 345b are wound in opposite directions, and the power generated by the fifth power supply 345c is used as the first and second quantum energy generating coils and discharge electrodes 345a and 345b. When supplied to the discharge electrodes 345a and 345b, a magnetic field in the form of a pulse is generated at an angle of 90 degrees to the direction of current flow. The winding directions of the first and second quantum energy generating coils and discharge electrodes 345a and 345b are in opposite directions to each other. Magnetic fields in the form of pulses in opposite directions are overlapped and extinguished at the center of the passage through which the contamination canal passes, which is the center distance of these coils 345a and 345b, and pulsating quantum energy is generated and irradiated in a zero magnetic field state. Therefore, the second quantum energy generator of the fourth quantum energy generator 340 includes the first quantum energy generating coil and discharge electrode 345a, the second quantum energy generating coil and ground electrode 345b, and the fifth power supply 345c. consists of
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 + power on the output side of the power supply 343b is supplied to the first cathode 343a. A bias circuit is formed between the power supply 341b and the power supply 343b by connecting the -power on the output side of 343b to the -power on the output side of the power supply 341b for the first quantum energy generating coil and heating heater 341a in common. The thermal electrons emitted from the surface of the heater 341a material heated to a high temperature are accelerated and struck by the first cathode 343a to heat them to a high temperature capable of overcoming the work function value of the first cathode 343a material. Thermal electrons are emitted from the material of the cathode 343a to heat the first quantum energy generating coil and discharge electrodes 345a and 345b to a high temperature to improve 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 + Supply power and connect the -power on the output side of the fourth power supply (344b) to the -power on the output side of the power supply (342b) for the second quantum energy generating coil and heating heater (342a) in common to form the second power supply (342b) A bias circuit is configured between the and the fourth power supply 344b to accelerate and hit the thermal electrons emitted from the surface of the heater 342a heated to a high temperature to the second cathode 344a, thereby increasing the work function of the material of the second cathode 344a. The discharge efficiency is improved by heating the second quantum energy generating coil and ground electrode 345b to a high temperature by emitting thermal electrons from the material of the second cathode 344a.
In addition, when power is supplied to the first electric motor 346c from the control panel 700, 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 installed 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 cathode 344a and the ground electrode 345b also rotate, and at the same time, when power is supplied to the second motor 347c from the control panel 700, the first motor 347c is operated and the second spur gear 347b connected to the shaft is As the first spur gear 347a installed on the circumferential surface of the outer cylinder 302 rotates clockwise or counterclockwise, the second spur gear 347b meshes with the first quantum energy installed in the outer cylinder 302. The generating coil and heating heater 341a, the first cathode 343a, and the ground electrode 345a also rotate. If the rotational directions of the first electric motor 346c and the second electric motor 347c are opposite to each other, the first both The energy generating coil and heating heater 341a, the first cathode 343a, the ground electrode 345a and the second quantum energy generating coil and heating heater 342a, the second cathode 344a, and the ground electrode 345b are connected to each other. The amount of pulsating quantum energy generated by irradiation of magnetic fields in opposite directions or magnetic fields in opposite directions or magnetic fields in opposite directions or magnetic fields in opposite directions or pulses is superimposed at the center of the flow path, which is the center distance, and then extinguished, the first and second motors 341c and 342c Since it increases in proportion to , the purification efficiency of contaminants contained in the air introduced by the pressure fan 204 is improved, and the sterilization and sterilization rate of bacteria and viruses in the floating air is improved.
In addition, materials such as BaO, SrO, and CaO and nitrogen oxides (NOX), sulfur oxides (SOX), and volatile organic compounds (VOCs) in polluting gases are disposed on the outer surface of the first cathode 342a and the second cathode 344a. ), titanium dioxide (TiO2), rhodium (Rh), platinum (Pt), palladium (Pd), ruthenium, zinc (Zn), which facilitates the decomposition of covalent bonds of contaminant molecules such as hydrogen sulfide (H2S), 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 At least one material selected from among aluminum, vanadium oxide, niobium oxide, tungsten oxide, manganese, and iron oxide is applied.
The power supply source is selected from a DC-DC converter in which a PWM (Pulse Width Modulation) control method and a pulse frequency modulation method are mixed, or a single-phase voltage source inverter (MPCC: Model Predictive Current Control) DC power is supplied to the first heating element 341a from the first power supply source 341b having a built-in current control function, and DC power is supplied from the third power supply source 343b to the second heating element 343a. The lower heating element generates heat and heats the first cathode 342a and the second cathode 344a installed at intervals in the range of 200 ° C to 1000 ° C to emit thermal electrons at the set temperature, which is programmed in advance and input to the control panel 700 The set temperature is adjusted by supplying DC power from the first power supply 341b to the first heating element 341a and adjusting the current supplied from the third power supply source 343b to the second heating element 343a. As shown in [Equation 1], the calorific value of 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 of the conductor (ohms), and t is the conduction time (Sec).
In addition, the intensity (magnetic flux density) of the magnetic field can be adjusted as shown 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 intensity of the Lorentz force can be adjusted as shown in [Equation 3]
[Equation 3]
F = BIl
Here, 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 introduced into the first quantum energy generator by the pressure of the pressurizing fan 204, or the polluted air or gaseous material containing pollutants is discharged through the discharge electrode 345a and the ground electrode 345b. ) In the process of passing through the flow path formed between, it is heated in a high-temperature environment, and the thermal electrons emitted from the first cathode 342a and the second cathode 344a are irradiated with collision, high voltage discharge process, magnetic field and pulsating quantum energy, A catalytic material such as BaO, SrO, CaO, which is dissociated into atoms 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 As a result, thermionic emission is increased on the inner surface of the first cathode 221 and the outer surface of the second cathode 241, and titanium dioxide (TiO 2 ), 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, the catalytic oxidation reaction in the catalytic material selected and applied improves the purification efficiency of polluted air, and the air components dissociate to further Activate.
In general, thermionic emission from the first and second cathodes 342a and 344a increases as the temperature increases. Thermionic emission differs in electron emission depending on the type of material or surface state of the cathodes 342a and 344a. For example, when the material of the thermionic emission device is an oxide of an alkaline earth metal, since thermionic emission is performed at a lower temperature than a pure metal, thermionic emission can be emitted even at a relatively low voltage. Thermionic emission amount of the cathodes 342a and 344a for inducing thermal decomposition and decomposing covalent bonds of contaminants in a high-temperature atmosphere to purify the air introduced into the fourth quantum energy generator 340 or the air containing pollutants And the intensity of the magnetic field generated by the first and second heating elements 341a and 342a, the amount of quantum energy irradiation, and the size of the Lorentz force are electric field electron energy that can decompose the covalent bond of oxygen molecules (O2) in air or polluted air ( 1E, eV) is 12.0857 eV or higher, the electric field energy (1E, eV) capable of dissolving the covalent bond of water molecules in steam is 12.621 eV or higher, and the electric field electric energy capable of dissolving the covalent bond of the propionic acid molecule (C3H6O2) ( 1E, eV) is 10.44 eV or more, and the field electron energy (1E, eV) that can break the covalent bond of hydrogen sulfide (H2S) molecules is 10.457 eV or more, and the field electron energy that can break the covalent bond of methylmercaptan molecules ( 1E, eV) is 9.439 eV or more, the field electron energy (1E, eV) that can break the covalent bond of an acetaldehyde molecule is 10.229 eV or more, the field electron energy that can break the covalent bond of methyl ethyl ketone molecule ( 1E,eV) is 9.52eV or more, the field electron energy (1E,eV) that can break the covalent bond of ethylamine molecule is 8.9eV or higher, the field electron energy that can break the covalent bond of ethylamine molecule (1E, eV) is 8.9eV or higher, the field electron energy (1E,eV) that can break the covalent bond of triethylamine molecule is 7.53eV or higher, the field electron energy (1E,eV) that can break the covalent bond of ammonia molecule (1E,eV) ) is 10.57eV or higher, the electric field energy (1E,eV) capable of breaking the covalent bond of an acetic acid molecule is 10.95eV or higher, the electric field energy (1E,eV) capable of breaking the covalent bond of a molecule of propionic acid molecule (1E,eV) is 10.44eV or more, the field electron energy (1E,eV) capable of breaking the covalent bond of the valeric acid molecule is 10.53eV or more, and the field electron energy (1E,eV) capable of breaking the covalent bond of the dimethyl sulfide molecule is 7.4 eV or higher; The electric field energy (1E,eV) capable of breaking the covalent bond of the raw material butylaldehyde molecule is 10.53 eV or more, and the electric field energy (1E,eV) capable of breaking the covalent bond of the MIBK molecule is 9.3 eV or more, Ethylbenzene The field electron energy (1E,eV) capable of breaking the covalent bond of molecules is 8.77 eV or higher, the field electron energy (1E,eV) capable of breaking the covalent bond of xylene molecules is 8.55 eV or higher, carbon disulfide (CS2 ) The field electron energy (1E, eV) that can dissolve the covalent bond of a molecule requires a field electron energy of 10.073 eV or more.
In addition, after the covalent bond of the material molecule is dissociated, the interatomic covalent bond dissociation energy for breaking the bond between atoms is 414 KJ / mol or more in the case of CH bond, 389 KJ / mol or more in the case of NH bond, and OH bond 348 KJ/mol or more, NN bond: 163 KJ/mol or more, OO bond: 146 KJ/mol or more, Cl-F bond: 253 KJ/mol or more, CN bond: 293 KJ/mol or more, NO bond: 201 KJ/mol or more mol or more, OF bond more than 190 KJ/mol, Cl-Cl bond more than 242 KJ/mol, CO bond more than 351 KJ/mol, NF bond more than 272 KJ/mol, O-Cl bond 203 KJ /mol or more, 237 KJ/mol or more for Br-F bond, 439 KJ/mol or more for CF bond, 200 KJ/mol or more for N-Cl bond, 234 KJ/mol or more for OI bond, or Br-Cl bond 218 KJ/mol or more, C=C bond 611 KJ/mol or more, C≡C bond 837 KJ/mol or more, C=N bond 615 KJ/mol or more, C=O bond 799 KJ/mol or more Dissociation energy is required.
The first generating coil and heating coil 341a, the second generating coil and heating coil 342a, the first and second power supply sources 341b, and the second power supply source 342b and conducting wires in which the winding directions of the coils are wound in opposite directions to each other. The first quantum energy generator can be configured as,
To the first generating coil/heating coil 341a in which winding directions of the coils are wound in opposite directions, the pulsed power generated from the first power supply source 341b is supplied to the first generating coil/heating coil 341a, At the same time, when the pulse-shaped power generated by the second power supply source 342b is supplied to the second generating coil/heating coil 342a to the second generating coil/heating coil 342a, the first generating coil/heating coil 341a In the second generation coil and heating coil 342a, pulse-type magnetic fields in opposite directions are irradiated, and at the center distance between the first generation coil and heating coil 341a and the second generation coil and heating coil 342a. As the magnetic field in the form of a pulse in the opposite direction overlaps and disappears, pulsating quantum energy is generated and irradiated in the zero magnetic field state.
A discharge electrode 345a installed on the inner circumferential surface of the outer cylinder 301a in which coils are wound in opposite directions, and a ground installed on one outer circumferential surface of the jacket-shaped second housing and second cathode 344a. The electrode 345b, the fifth power supply 345c for supplying a high voltage, and a wire may form a second quantum energy generator.
The discharge electrode 345a installed on the inner circumferential surface of the outer cylinder 301a in which the winding direction of the coil is wound in opposite directions and the ground installed on one outer circumferential surface of the jacket-shaped second housing and second cathode 344a When the pulsed power generated by the fifth power supply 345c is supplied to the electrode 345b to the discharge electrode 345a and the ground electrode 345b, the discharge electrode 345a and the ground electrode 345b generate electricity in opposite directions. As the pulse-type magnetic field overlaps and disappears at the center distance between the discharge electrode 345a and the ground electrode 345b, pulsating quantum energy is generated and irradiated in the zero magnetic field state.
Quantum energy is irradiated by the means described above, air is ionized, contaminants are purified, germs 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 The air heated to a high temperature in (343a) is pressurized by the pressurizing force of the fan 204 or a pressurizer (not shown) through the exhaust pipe and supplied to the heat exchange unit 500, or directly to the quantum energy irradiation unit without passing through the heat exchanger 400. It is supplied to the diffuser 502 of 500.
FIG. 13 is a cross-sectional view showing the heat exchange unit of FIG. 1. Referring to the accompanying drawings, the heat exchange unit 400 is made of any one material among tungsten (W), titanium (Ti), stainless steel, and hastalloy. Solenoid coil shape or trigger coil shape, deformed trigger coil shape, cusp coil shape, Helmheltz coil shape, gradient saddle coil shape that is selected and has a horizontal or vertical shell-and-tube shape and receives power from an external power supply 413 , Or the first and second quantum energy generating coils 411 and 412 in the form of uniform saddle coils are wound or installed (410), the main body 401 in which the first quantum energy generator is installed, and one side other than the main body 401 in an up and down diagonal direction Holes (not shown) of a certain diameter are drilled in the vertical diagonal direction to weld and install the contaminated air inlet (404a) and outlet (404b), and the center of both ends of the main body 401 in the horizontal direction is formed with holes (not shown) of a certain diameter. After welding and installing a plurality of inlets (404a) and outlets (404b) of a certain diameter by drilling a plurality of holes, the tube (402) is attached to a plurality of partition plates (401a) having a diameter 2 to 5 mm smaller than the inner diameter of the main body (401). A solenoid coil shape in which a plurality of holes (not shown) having a diameter 2 to 5 mm larger than the outer diameter of the hole (not shown) are punched in the center and circumferential direction, and power is supplied from the power supply 423 to the outside of the hole (not shown). Second quantum energy generating coils 421 and 422 of a trigger coil shape (not shown), a modified trigger coil shape (not shown), or a gradient coil shape (not shown) are wound. The plurality of tubes 402 in which the energy generator 420 is installed and the first and second quantum energies generated in a gradient coil shape (not shown) or 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, in which the coils 431 and 432 are wound, is installed, is inserted between the plurality of partition plates 401a, both ends of the tube are expanded and joined using an expander (not shown). Contamination on one side of the body outside after installing by welding or welding A pressure fan 204 is installed in the air inlet 404a, an outlet 404b is installed in the electric precipitator 200, and a process gas inlet 405a is connected to the outlet of the quantum energy generator 310, 320, 330, 340 with a built-in discharge function, After connecting the process gas outlet 405b to the inlet of the quantum energy irradiation device 500, the high-temperature pollutant gas introduced by the pressure fan 204 flows into the inlet 404a installed in the lower part of the main body 401, and the first Main body 401 in which the quantum energy generator 410 is installed passes through the baffle 403 in which the third quantum energy generator 430 is installed and the tube 402 in which the second quantum energy generator 420 is installed, the main body 401 in a diagonal direction ) The first and second quantum energy generating coils 411a, 421a, 431a, 412a, 422a, and 432a of the first, second, and third quantum energy generators 410, 420, and 430 in the process of being discharged through the outlet 404b installed at the upper part The pulsating quantum energy generated in the state in which pulse-type magnetic fields irradiated in opposite directions are irradiated and pulse-type magnetic fields irradiated in opposite directions are overlapped and extinguished. When irradiated with water, water molecules in the air are irradiated with magnetic fields and quantum energy to have electrostatic traction, cause interference at long distances, reduce hydrogen bonds between water dipoles, increase order, and form lumps of water molecules. It is small, causing so-called 'microcluster' phenomenon and vaporization is easy, improving the cooling efficiency with the latent heat of vaporization of water during vaporization, permanently maintaining the orderly ground state, and also giving the water a small electrical disturbance to generate electricity. Polarization is generated and pulsed magnetic field and pulsating quantum energy are irradiated to dissociate and ionize the covalent bonds of pollutants in the air, thereby purifying the pollutants and facilitating dust collection in the dust collector 200. Quantum discharge function is built-in It is discharged from the energy generators (310, 320, 330, 340) and introduced into the process gas inlet (405a) installed in the center of the left side of the main body (401), The temperature of the contaminant gas is controlled by an indirect heat exchange method in the process of passing through the inside of the two tubes 402 and being discharged through the outlet 405b.
As for the power supplies 413, 423, 433, any one of 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. 10 is selected. is used
14 is a cross-sectional view showing the quantum energy irradiation unit of FIG. 1. Referring to the accompanying drawings, the quantum energy irradiation unit 500 includes a cylindrical or rectangular body shape body 501 and an injection tube installed in the center of the body. (502), the + pole (511) of the electrolysis device installed face-to-face on the inner surface of the body, the - pole (512) of the injection tube and electrolysis device, and the power supply (513) installed on one side of the body (501) In the circumferential direction on one side of the electrolysis device 510 and the main body 501, one of the shapes of the cusp coil, the Helmsheltz coil, the gradient saddle coil, the uniform saddle coil, the solenoid coil, the toroid coil, the Maxwell coil, and the trigger coil shape is selected It is composed of a quantum energy generator 520 composed of first and second quantum energy generating coils 521 and 522 and a power supply 523, which are produced by inflow and outflow of gaseous substances including air or liquid substances including water. The material of the body 501 in the shape of a cylinder or square column is a non-metallic material such as an insulating material, an acid-resistant material, or a corrosion-resistant material, and 2n first and second quantum energy generating coils are formed in the circumferential direction on one side of the outside of the body 501 The winding directions of (521 and 522) are wound in opposite directions to each other with a certain number of turns, installed to face each other, and connected to the power supply 523 and the conducting wire 524. + pole 511 of the electrolyzer 510) is installed, a hole (not shown) of a certain diameter is drilled on one side of the outer side of the main body 501, and a thread is machined on the inner surface of the hole (not shown) The outlet pipe 405b of the heat exchanger 400 is connected to the upper part of the socket (not shown), the diffuser 502 is installed to the lower part of the socket (not shown), and the DC power supply 513 is installed on one side of the body 501. is installed, and on one side of the diffuser 502, it is connected to the -pole 512 terminal on the output side of the DC power supply 510, and the power supply 513 and the quantum energy generator 520 of the electrolyzer 510 in the control panel 600 When power is supplied to the power supply 523 of the power supply 513 When the generated pulsed DC power is supplied to the + pole 511 and the - pole diffuser 512, the electrolysis action proceeds to remove water and heavy metals contained in liquid materials including water, and the quantum energy generator 520 ) The pulsed magnetic field generated by the power supply 523 and the pulsed magnetic field generated in opposite directions are superimposed and the pulsating quantum energy generated in the extinction state is irradiated, and the discharge function is performed by a pressurizer (not shown). Quantum energy is irradiated from the built-in quantum energy generating unit 300, and the activated radical material and nitrogen oxide material are supplied to and supplied to the diffuser 502 and sprayed to gaseous materials including air or liquid materials including water, Activated radicals and contaminants react to purify pollutants and sterilize bacteria in the water, including algae and red algae (including blue-green algae), and also the first quantum energy generating coil and heating coil of the fourth quantum energy generator 340 ( 341a) and the second quantum energy generating coil cum heating coil 343a, when the air heated to a high temperature is sprayed into the water through the diffuser 502, water hammer action accompanied by a pressure wave and algae and red algae in contact with the high-temperature gas (including blue-green algae) biofilm is destroyed by thermal shock and internal organs are damaged to improve the sterilization rate, sterilize airborne bacteria and viruses, purify water and liquid substances, and contain them in water Removes heavy metals and sprays them on water and liquid materials of high-temperature active radicals to perforate biofilms of bacteria such as algae by thermal shock and active radicals and biofilms of algae in water by electroporation. sterilize germs
As for the power supplies 513 and 523, any one of 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. 10 is selected. is used
The additive is supplied and mixed with external air or contaminated air, and the inside of the fourth quantum energy generator 340 is heated to a high temperature using a heating element, and the cathodes 302 and 303a are heated to a high temperature. By colliding mixed air or polluted air, irradiating a pulsed magnetic field and irradiating pulsating quantum energy to sterilize germs and viruses, and applying a high voltage generated from the power supply 345c to the discharge electrodes 345a and 345b to Electrochemically purifies polluted air through dissociation, ionization, excitation, oxidation, and reduction reactions, and superoxide anion (O2-), hydroxyl radical (OH-), After free radicals such as oxygen radicals such as nitrogen monoxide (NO) and singlet oxygen (1O2) sterilize bacteria and viruses, surplus ionized air is compressed by the pressurizing force of the pressurizer (not shown) in the quantum energy irradiation unit 500. It is supplied to the diffuser 502 and sprayed on air or gas including air flowing into the inside of the housing 601 and water and liquid substances including water to purify air and air and gaseous contaminants through oxidation-reduction reaction. At the same time, germs of bacteria and viruses are sterilized, sprayed on water and liquid substances including water to purify contaminants in water, and at the same time sterilize and remove bacteria and biofilms contained in water. adversely affect 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. When the cell wall breaks down, holes are opened by free radicals, and the contents of the cell spill out of the cell.
In addition, active oxygen, one of the oxygen radicals, is oxygen remaining after use in the process of generating energy. It is an atom or molecule with unpaired electrons, and is in a very unstable state of atoms or molecules called free radicals. It binds to other substances in the cell membrane and destroys cell membranes, mitochondria, DNA and other cellular components. Thus, it causes damage to the organism's tissues and organs, which deteriorates the organism's natural defense mechanisms.
In addition, the + electrode 511, the diffuser and -electrode 512 in the electrolysis machine 510 composed of the + electrode 511, the diffuser and -electrode 512, and the power supply 513 have a power supply ( 513) is supplied to the + electrode 511, diffuser and - electrode 512, so that the strength of the electric field applied to water or a liquid material containing water is equal to the distance between the electrodes 511 and 512 for a given voltage. Inversely proportional, the electric field strength increases as the distance between the electrodes 511 and 512 decreases. However, an electric field must be able to be generated in tissue with insulated electrodes, i.e., a flow of ions is not necessarily required to generate an electric field. The flow of ions opens the electrical pores and allows molecular movement into the cell during electroporation. The flow of charge in a conductor or medium between two points having a potential difference is called current. Current between the electrodes is achieved by ions that can change within cells or charged particles within tissues. Also, the flow of conductive ions in the tissue can vary between the electrodes from the start of the electrical pulse to the end.
When tissue has a small percentage of conductive ions, resistance increases, heat is generated and cells die. Ohm's Law describes the relationship between current ("I"), voltage ("V"), and resistance ("R").
R = V/I
The resistance between two electrodes in tissue changes depending on the charged particles present there. Thus, the resistance within the tissue changes from the start of the electrical pulse to the end.
Heat is produced by the impedance between the electrodes (i.e., it is 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 duration of the pulse ("t", time). For example, during electroporation, the heat or power ("W", in watts) generated in the supporting tissue can be represented by the equation:
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 cells to temporarily open membrane pores. Protocols describing electroporation are consequently defined as electric field strength (E), which is dependent on short pulses of voltage proportional to the distance between the electrodes and independent of current or tissue resistance. Thus, resistance or heat cannot be determined by electroporated tissue, which leads to varying success with different pulse voltage electroporation protocols. Clearly, the difference in the upper amplitude of the voltage pulse between an electroporation protocol that facilitates effective electroporation and one that causes cells to die is very small. Additionally, a clear correlation was observed between cell death and heating of the 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 the electrodes, serves as the primary determinant of the effectiveness of any given pulse protocol.
When electricity is delivered to the cells of a treatment subject, the dose of electricity can be accurately described by the amount of charge ("Q"), which is expressed in the following equation of current ("I") and time ("t"). follow
Q = It
If the current is not constant, Q is the time integral of I. In this respect, 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 electric charge (coulomb), only the charge quantity specified above is significant. A certain minimum voltage must exist to generate current, but the amount of accumulated ions cannot be determined from a predetermined voltage. Thus, the amount of charged particles delivered to the cells in the electroporator can be obtained from the voltage applied to the electrodes.
15 is a cross-sectional view showing the control panel of FIG. 1. Referring to the accompanying drawings, the control panel 600 generates an additive supply unit 100, an electric dust collector 200, and quantum energy 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 together with the accompanying drawings, but this is an illustrative description of the best embodiment of the present invention, not limiting the present invention, and those skilled in the art It is a clear fact that anyone can make various modifications and imitations such as dimensions, shapes, and structures without departing from the scope of the technical idea of the present invention, and such modifications and imitations are included in the scope of the technical idea 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: city water supply pipe,
105: agitator, 106: pump,
107a, 107b: electronic valve, 108: heating chamber,
109: electric heater, 110: nozzle,
111: heater power supply,
200: electric dust collector
201: 1st stage electric precipitator body 202: 2nd stage electric precipitator body,
203: venturi ejector 204: pressurized FAN
211: discharge electrode, 211a, 211b: first and second quantum energy generating coils
212: ground electrode, 212a, 212b: third and fourth quantum energy generating coils
213: lead wire, 214: power supply
221: discharge electrode, 221a, 221b: first and second quantum energy generating coils
222: dust collection electrode, 222a, 222b: third and fourth quantum energy generating coils
222c: cylinder 222d: fifth quantum energy generating coil
300: quantum energy generating 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 gradient coil 332a: second gradient 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: wire
340: fourth quantum energy generator
301: main body 302: outer cylinder
303: inner cylinder 304: contaminated 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 unit
501 main body 502 diffuser tube
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 tanks 102a to 102e, raw additive solution supply pipe 103, city water supply pipe 105, pump 106, additive supply pipe 107, solenoid valves 107a and 107b, heating chamber (108), electric heater (109), nozzle (110), heater power supply (112), venturi (203), and air compressor (113). After selecting and storing any one or more of the stored reducing agent for removing nitrogen oxides (NOX), sulfur oxides (SOX) removing agent, oxygen scavenger, hydroxyl release agent, and particle flocculating agent compound, it is supplied to the city water storage tank 101 through the supply pipe by gravity difference. An appropriate amount is supplied, stirred for a certain period of time with the stirrer 105, and then sprayed to the heating chamber 108 heated to a high temperature by the electric heater 109 using the pump 106 to vaporize, and then to the air compressor 113. An additive supply unit 100 that is suctioned and pressurized and supplied to the neck portion 203a of the venturi ejector 203 installed between the first stage electric precipitator 210 and the second stage electrostatic precipitator 220 of the electric precipitator 200;
The main body 201 with both ends conical and the central part cylindrical, the left end face connected to the fan 204 and the right end face connected to the venturi ejector 203, the outer left side of the body 201 and one inner side The first partition plate on which the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 are installed is installed, and the third and fourth quantum energy generating coils 212a, 212b) and the second partition plate on which the dust collecting electrode 212 is installed, the power supply 214 is installed on one side of the outer side of the main body 201, and -power generated by the power supply 214 is connected to the wire 213 When supplied to the first and second quantum energy generating coils 211a and 211b and the discharge electrode 211 through the first and second quantum energy generating coils 211a and 211b having opposite winding directions, pulses in opposite directions are formed. As the magnetic field and pulsating quantum energy are irradiated, dust and heavy metals in the polluted air are ionized by corona discharge at the discharge electrode 211, and the + power generated in the power supply 214 is passed through the third and fourth wires 213. When supplied to the quantum energy generating coils 212a and 212b and the dust collection electrode 212, the third and fourth quantum energy generating coils 211a and 211b whose winding directions are opposite to each other generate magnetic fields in the form of pulses and pulsating quantum While energy is irradiated, + power is supplied to the dust collecting electrode 212, and the ionized material on the discharge electrode 211 is attached to the dust collecting electrode 212 by electrical attraction to a first stage dust collector 210 for removing dust; and
The main body 202, the left end of which is connected to the venturi ejector 203, the first quantum energy generating coil 221a is installed on one side of the left outer side of the main body 202, and the second quantum energy generating coil 221b on the inner side, and A first partition plate with a discharge electrode 221 is installed, a third quantum energy generating coil 222a is installed on one outer side of the right side of the main body 202, and a fourth quantum energy generating coil ( 212b) is installed, and a second partition plate in the shape of a plurality of RF coils on the inner circumferential surface of the cylinder 222c and having a fifth quantum energy generating coil and dust collection electrode 212 consisting of a cover plate on the top is installed, and a main body ( 202) A power supply 224 is installed on one side of the outer side, and -power generated by the power supply 224 is passed through a wire 223 to the first and second quantum energy generating coils 221a and 221b and the discharge electrode 221 ) When supplied to the first and second quantum energy generating coils 221a and 221b whose winding directions are opposite to each other, magnetic fields in the form of pulses and pulsating quantum energy in opposite directions are irradiated, and the discharge electrode 221 is contaminated with corona discharge. Dust and heavy metals in the air are ionized, and + power generated in the power supply 224 is passed through the wire 223 to the third and fourth quantum energy generating coils 222a and 222b and the fifth coil and dust collection electrode 222 When supplied to the third and fourth quantum energy generating coils 22a and 222b in opposite winding directions, pulse-shaped magnetic fields and pulsating quantum energy in opposite directions are irradiated, and + power is supplied to the collecting electrode 222 In the state where the magnetic fields in the form of pulses in opposite directions are irradiated from the plurality of fifth coils, and the magnetic fields in opposite directions overlap and disappear, pulsating quantum energy is irradiated, and the ionized material on the discharge electrode 221 is collected by the collecting electrode 222 An electric dust collecting unit 200 composed of a two-stage dust collector 210 that is attached to the dust collector 200;
A body 301 in a cylindrical or rectangular parallelepiped shape, an insulator 302 applied to the outer circumferential surface of the body, a trigger coil or solenoid coil at a predetermined interval from the inner surface of the body, and discharge needles 311e on the circumferential surface inside and outside the body at intervals A first quantum energy generating coil and discharge electrode 311 attached at intervals are installed, and the discharge electrode 311 is spaced apart from each other in the form of a trigger coil or solenoid coil, and discharge needles 312e are spaced on the circumferential surface inside and outside. A second quantum energy generating coil and ground electrode 312 attached with a , is installed,
A pulsed power supply 313 is installed on one side outside the main body and is connected to the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312 with a conducting wire 314, and an electric dust collector ( The pressurizing fan 204 of 200 is operated, and the sucked and pressurized polluted air flows into the main body 301 of the first quantum energy generator 310, and at the same time, the power generated by the pulse type power supply 313 is applied to the wire ( 313), when supplied to the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312, the first quantum energy generating coil in the form of a trigger coil or solenoid coil wound in opposite directions to each other A magnetic field in the form of a pulse is irradiated at an angle of 90 degrees of the current flow to the discharge electrode 311 and the ground electrode 312 of the second quantum energy generating coil, and magnetic fields in the form of pulses in opposite directions are overlapped and extinguished at the center distance, resulting in a zero magnetic field In this state, as pulsating quantum energy is generated and irradiated, discharge starts between the discharge electrodes 311 and 312 and a high field electron energy band is formed. Discharge function that sterilizes and sterilizes by perforating the biofilm of bacteria and viruses suspended in the air by active radicals of singlet oxygen and nitric oxide hydroxyl ions generated in the process when the covalent bonds of harmful substances contained in substances are dissociated and decomposed. The built-in first quantum energy generator 310; and
Cylindrical or rectangular parallelepiped main body 301, the inner surface of the main body is insulated, and two fixing rods are installed inside at regular intervals from each other. The first gradient saddle coil (322-1a) and the first discharge electrode (322-2a) and the second gradient saddle coil (322-1b) and the first discharge electrode (322-2b) in which a plurality of discharge electrodes processed as After installing them facing the inner center and facing each other, the first gradient saddle coil (322-1a) and the first discharge electrode (322-2a) and the second gradient saddle coil (322-1b) and the first discharge electrode (322) -2b) A plurality of ground electrodes 323 are installed on a fixing table, and a plurality of discharge needles having a cylinder shape and one end of a certain length processed into a cone shape at intervals inside are installed at intervals on the inside of the ground electrode 323. A third discharge electrode 324, in which a plurality of discharge needles are screw-shaped at intervals and one end of a certain length is machined into a conical shape on the outer circumferential surface at intervals is installed on a fixing base and installed on one side of the body 301 outside. When the pulsed power generated by the power supply 328 is supplied, the first gradient saddle coil 322-1a, the first discharge electrode 322-2a, and the second gradient saddle coil (which are wound in opposite directions) 322-1b) and the second discharge electrode 322-2b, pulse-type magnetic fields in opposite directions are irradiated to the main body 301, and pulsating quantum energy is irradiated in a state in which pulse-type magnetic fields in opposite directions overlap and disappear. As a result, multiple discharges are initiated and a high field electron energy band is formed between the first and second discharge electrodes 322-1a and 322-1b, the ground electrode 323, and the third discharge electrode 324, and a band passing through this band Air constituents introduced by the fan 204, odor causing substances contained in the air, and harmful substances are irradiated with high-field electromagnetic energy, and the covalent bonds of the air constituents, odor causing substances contained in the air, and harmful substances are dissociated. As it is decomposed and purified, active radicals of singlet oxygen and hydroxyl ions generated in this process are released into the air. A second quantum energy generator 320 with a built-in discharge function for sterilizing and sterilizing by perforating the floating biofilm of bacteria and viruses;
A first quantum energy generator 330a composed of 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 It consists of a second quantum energy generator and discharge unit 330b composed of a second quantum energy generating coil and ground electrode 335, a high voltage generator 336, and a conducting wire 336f, and the main body 301 is cylindrical, Selecting one of the shapes of a regular hexahedron or a rectangular parallelepiped, insulating the outer surface of the body 301 with an insulating material to form an insulating layer, and forming a plurality of inclined coils or toroids in which winding directions are opposite to each other on the formed insulating layer The coil-shaped first and second quantum energy generating coils 331 and 332 are installed to face each other and receive pulse-type power generated from the power supply 333 installed on one side outside the main body 301 through the conducting wire 333d. Pulse-type magnetic fields in opposite directions are irradiated, and pulse-type magnetic fields in opposite directions are overlapped and extinguished at the center distance of the first and second quantum energy generating coils 334 and 335 to generate pulsating quantum energy generated in a zero magnetic field state. While irradiating the inside of the main body 301, two discharge electrode fixtures 337a and 337b 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 facing each other. After perforating two holes large enough to insert the fixing bracket at a distance from the center of both surfaces of the rectangular insulation plate made of Teflon, ceramic, or glass, wire made of stainless steel or tungsten (W) The coil is wound clockwise or counterclockwise in a deformed inclined coil shape or toroid coil shape, but the coils attached to the front and back sides are wound in opposite directions to each other, and attached to the insulating plate, and the exposed coils are wound at regular intervals. After attaching the discharge needles 334a and 334b having a certain length, insert them into the fixtures 337a and 337b so that the winding directions of adjacent coils are opposite to each other, and then maintain and fix the gap with the fixing nut 338. Then, the discharge electrode plates 334 and 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 main body, and the power source installed on one side of the outer side of the main body 301 If the pulsed power generated by the supply 336b is supplied to the plurality of first quantum energy generating coils and discharge electrodes 334 and the second quantum energy generating coils and ground electrodes 335 through the conducting wire 336d, the Magnetic fields in the form of pulses in opposite directions at an angle of 90 degrees to the flow direction are irradiated and opposite directions from 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-type magnetic field overlaps and disappears, pulsating quantum energy is generated and irradiated in the zero magnetic field state to the plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and ground electrodes 335. Discharge starts and a high-field electron energy band is formed, and the formed energy band is irradiated with high-field electron energy to air constituents introduced by the fan 204, odor causing substances, and harmful substances contained in the air to form air. The covalent bonds of odor-causing substances and harmful substances contained in substances and air are dissociated and purified 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; and
The inner cylinder 303 has a cylindrical shape, one part of the outer side is insulated, and two parts are sealed with a partition plate at an interval inside, and a plurality of polluted air injection ports 304 in the circumferential direction at an interval from the left partition plate to the left. is perforated, and a plurality of purified air inlets 305 are perforated in the circumferential direction at intervals to the right side of the right partition plate, and a second quantum energy generator and heating coil 342a wound on one circumferential surface of the inner cylinder 303 is installed, and the housing 303a, which has a jacket shape that embraces the first quantum energy generator and heating coil 342a and performs the function of the second cathode 344a, is insulated from the main body 301 and installed by interviewing, and has a jacket shape. A solenoid-shaped ground electrode 345b wound on the circumferential surface of the housing 303a is installed on the circumferential surface of the outer surface of the housing 303a, and a second spur gear 346a is installed on one side of the outer surface of the inner cylinder 303, the second The first spur gear 346b is installed so that the teeth of the spur gear 346a are engaged, and the first spur gear 346b is connected to the second electric motor 346c by a shaft, and on one side of both end surfaces at intervals, a fastening mechanism for rotation ( 346sd) is installed, the second quantum energy generator and heating coil 342a receives power from the second power supply 342b, and the second cathode 344a receives power 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 receives power from the fifth power supply 345c,
The outer cylinder 301 has a cylindrical shape, one part of the outer side is insulated, and a solenoid coil-shaped discharge electrode 345a wound on the inner circumferential surface is installed. A jacket-shaped housing 303b that functions as a first cathode 343a and embraces the first cathode 343a is installed, and the inner surface of the housing is insulated and insulated to face the circumference of the first quantum energy generator and heating coil. 341a is installed, a rotational fastening mechanism 347d is installed on one side of both ends, the first quantum energy generator and heating coil 341a receives power from the first power supply 341b, and the first 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 ) is supplied with power,
First and second quantum energy generators and heating heaters (341a, 342a) and irradiates 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 5000 ° C, which is a temperature that can overcome the work function value of the heating heater material. When heated above this temperature, thermal electrons are emitted from the surface of the material, and the power generated by the first power supply 341b and the third power supply 343b constituting the bias circuit or power in the form of a pulse is supplied to the first cathode 343a. At the same time, if the power generated by the second power supply 342b and the fourth power supply 344b constituting the bias circuit or power in the form of a pulse is supplied to the second cathode 344a,
Thermal electrons emitted from the surface of the material 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, to form the first and second cathodes 343a and 344a. By hitting the material of the first and second cathodes 343a and 344a, the material is heated to a temperature higher than the temperature at which the work function value can be overcome, and thermal electrons are directed from the surface of the material toward the discharge electrode 345a and the ground electrode 345b. While emitting, when the AC high voltage or DC high voltage in the form of a pulse generated by the fifth power supply 345c is applied, discharge starts between the discharge electrode 345a and the ground electrode 345b and a high field electron energy band is formed. High field electron energy is irradiated and heated to the polluted air flowing through the band by the pressure of the pressurizing fan 204, heating, pulse-type magnetic field irradiation, pulsating quantum energy irradiation, thermionic emission and dissociation of impact high-voltage discharge, ionization, excitation A quantum energy generator 340 with a built-in fourth discharge function that purifies odor-causing substances and harmful substances in the polluted air through electrochemical reactions of oxidation and reduction reactions, and sterilizes and sterilizes bacteria and viruses in the polluted air; and
In a horizontal or vertical shell-and-tube body 401, a hole of a certain diameter is drilled in a diagonal direction up and down on one side of the body 401, and a polluted air inlet 404a and an outlet 404b are welded and installed After drilling a plurality of holes of a certain diameter in the center of both ends of the main body 401 in the horizontal direction and welding and installing an inlet 404a and an outlet 404b of a certain diameter, 2 to 5 mm smaller than the inner diameter of the main body 401 In the plurality of partition plates 401a having a diameter, a plurality of holes having a diameter 2 to 5 mm smaller than the outer diameter of the tube 402 are perforated in the central and circumferential direction, and a plurality of tubes 402 and baffles 403 are inserted into the perforated holes. After inserting it between a plurality of partition plates 401a, expand both ends of the tube using an expander and connect or weld to install it, install a pressure fan 204 at the polluted air inlet 404a, and install the outlet 404b is installed in the electrostatic precipitator 200, the process gas inlet 305a is connected to the outlet of the quantum energy generator 300 with a built-in discharge function, and the process gas outlet 405b is connected to the inlet of the quantum energy generator 500. After that, the high-temperature contaminant gas introduced by the pressure fan 204 flows into the inlet 404a installed at the bottom of the main body 401, passes through the internal baffle 403 and the tube 402 of the main body 401, and passes through the main body in a diagonal direction. (401) In the process of being discharged through the outlet (404b) installed at the top, it is discharged from the quantum energy generator (300) with a built-in discharge function and flows into the process gas inlet (405a) installed in the center of the left side of the main body (401) to form a plurality of tubes. (402) a heat exchange unit 400 for adjusting the temperature of the polluted gas by an indirect heat exchange method in the process of passing through the inside and being discharged to the outlet 405b; and
It is an insulating material, acid-resistant, and corrosion-resistant material in the shape of a cylinder or square column through which gaseous substances including air or liquid substances including water flow in and out, and in the circumferential direction of the main body 501 and the outer side of the main body 501 made of non-metallic material. 2n first and second quantum energy generating coils are wound with a certain number of turns in opposite directions to each other, installed facing each other, and connected to the power supply 523 with a conducting wire. The + pole 511 of the semicircular columnar electrolyzer 510 is installed, a hole of a certain diameter is drilled on one side of the outer side of the main body 501, and heat exchange is performed on the upper part of the socket with a thread on the inner surface of the drilled hole. The negative outlet pipe 405b is connected, a diffuser 502 is installed at the bottom of the socket, a DC power supply 513 is installed on one side outside the main body 501, and a DC power supply is installed on one side 512 of the diffuser 502. When connected to the output-pole terminal of the supply 510 and supplying power to the power supply 510 of the electrolyzer 510 and the power supply 523 of the quantum energy generator 520 from the control panel 600, the power supply 510 ) is supplied to the + pole 511 and the - pole diffuser 512, and the electrolysis action proceeds to remove heavy metals contained in water and liquid materials including water, and the quantum energy generator ( 520), the pulsating quantum energy generated in the state in which the pulse-type magnetic field generated by the power supply 523 and the pulse-type magnetic field generated in opposite directions are superimposed and extinguished are irradiated, and the discharge function is built-in by the pressurizer. Quantum energy is irradiated from the quantum energy generator 300, and the material of the activated radical material is supplied to the diffuser 502 and sprayed to gaseous material including air or liquid material including water, and active radicals and contaminants react It purifies pollutants, sterilizes bacteria and viruses floating in the air, purifies water and liquid substances, removes heavy metals contained in water, and sprays high-temperature active radical substances into water and liquid substances to prevent thermal shock and active radical damage. algae bacterial A quantum energy irradiation unit 500 that sterilizes bacteria by perforating the biofilm and biofilm of algae bacteria in water by electroporation; and an additive supply unit 100 and an electric dust collection unit 200 by data transmitted by the sensor. ), a control panel 600 for controlling power supplied to the quantum energy generating unit 300 and the quantum energy irradiation unit 500 in a cut-off supply method. This built-in quantum energy generator. According to claim 1,
The additive supply unit 100 includes a city water storage tank 101, an additive storage tank 102a-e, an additive stock solution supply pipe 103, a city water supply pipe 104, an agitator 105, a pump 106, 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, additive storage tank (102a, 102b, 102c, 102d, 102e) After selecting and storing any one or more of the reducing agent for removing nitrogen oxides (NOX), sulfur oxides (SOX) removing agent, oxygen scavenger, hydroxyl release agent, and particle coagulant, An appropriate amount is supplied to the city water storage tank 101 through the supply pipe, and after stirring for a certain period of time with the agitator 105, the heating chamber 108 heated to a high temperature by the electric heater 109 using the pump 106 After being sprayed and vaporized, it is sucked and pressurized by the air compressor 113 to the neck 12a of the venturi ejector 112 installed between the first stage electric precipitator 210 and the second stage electrostatic precipitator 220 of the electric precipitator 200. A quantum energy generator with a built-in discharge function for processing gas, liquid, and fluid, characterized in that supplied to the connected two-fluid nozzle (203b). According to claim 2,
As a reducing agent for removing nitrogen oxides (NOX), one or more materials selected from urea, ammonia, isopropyl alcohol, and isobutyl alcohol are supplied and injected into a two-fluid nozzle 203a connected to the venturi ejector 203,
As the sulfur oxide (SOX) remover, one or more substances selected from among ammonia, calcium hydroxide, calcium oxide, calcium carbonate, calcium bicarbonate, and sodium carbonate are supplied to and injected into the two-fluid nozzle 203a connected to the venturi ejector 203,
The oxygen scavenger is N-aminomorpholine, 1-amino-4-methylpiperazine, N-aminohexamethyleneimine, 1-aminopyrrolidine, 1-aminopiperidine, hydroxylamine, N,N-diethyl At least one material selected from hydroxylamine and N-isopropylhydroxylamine is supplied and injected into a two-fluid nozzle 203a connected to the venturi ejector 203,
The hydroxyl-releasing agent is water, hydrogen peroxide, 4-allyl-2-methoxyphenol (eugenol), 3-(2-bornyloxy)-2-methyl-1-propanol, 2-tert-butylcyclohexanol, 4-tert-butylcyclohexanol, benzyl alcohol, 1-decanol, 9-decen-1-ol, dihydroterpineol, 2,4-dimethyl-4-cyclohexene-1-methanol, 2,4 - Any one or more materials selected from among dimethylcyclohexylmethanol, 2,6-dimethyl-2-heptanol, and 2,6-dimethyl-4-heptanol are supplied to the two-fluid nozzle 203a connected to the venturi ejector 203. and sprayed,
Particle coagulants are aminosilane-based particle coarse particles such as dimethylsilyldimethylamine, N,N-dimethyltrimethylsilylamine, hexamethylsilazane, N,O-bis(trimethylsilyl)trifluoroacetamide, and bis(dimethylamino)dimethylsilane. A quantum energy generator with a built-in discharge function for gas, liquid, and fluid treatment, characterized in that any one or more materials are selected from among the topical compounds and supplied and injected to the two-fluid nozzle (203a) connected to the venturi ejector (203). According to claim 1,
The electrostatic precipitator 200
Main body 201, first and second quantum energy generating coils 211a and 211b and discharge electrodes 211 and third and fourth quantum energy generating coils 212a and 212b and dust collection on one side inside the left side of the main body 201 A first-stage dust collector 210 composed of an electrode 212 and a power supply 214; and
Venturi ejector (203); and
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 and 222b and the fifth Quantum energy generation with a built-in discharge function for gas, liquid, and fluid processing, characterized in that it consists of a two-stage dust collector 220 composed of a quantum energy generating coil 222c, a dust collection electrode 212, and a power supply 224 Device. delete delete delete According to claim 4,
The shape of the second quantum energy generating coil 211b and the discharge electrode 211 of the first stage dust collector 210 and the shape of the second quantum energy generation coil 221b and the discharge electrode 221 of the second stage dust collector 220 are Rogowski's A quantum energy generating device with a built-in discharge function for gas, liquid, and fluid processing, characterized in that it has a coil (rogoski coil) shape or a modified rogoski coil shape. According to claim 1,
The quantum energy generator 300 has a first quantum energy generator 310, a second quantum energy generator 320, a third quantum energy generator 330, and a fourth quantum energy generator 340. selected and used
The first quantum energy generator 310
A body 301 in a cylindrical or rectangular parallelepiped shape, a first quantum energy generating coil and discharge electrode 311 in a trigger coil or solenoid coil shape or a deformed shape of a trigger coil or solenoid coil shape, and a second quantum energy generating coil and ground electrode ( 312), a power supply 313, and a wire, and has a predetermined diameter and length at intervals on the outer surfaces of the first quantum energy generating coil and discharge electrode 311 and the second quantum energy generating coil and ground electrode 312. A plurality of needle-shaped discharge needles are attached, and the first quantum energy generating coil and discharge electrode 311, the second quantum energy generating coil and discharge electrode 311, in which winding directions are wound in opposite directions when supplied with pulse-type power generated by the power supply 313 Magnetic fields in opposite directions are irradiated from the energy generating coil and ground electrode 312, and magnetic fields in opposite directions are irradiated, overlapped, and extinguished at the center distance of these discharge electrodes 311 and 312 to investigate pulsating quantum energy generated in a zero magnetic field state. A quantum energy generator with a built-in discharge function for processing gases, liquids, and fluids, characterized in that. According to claim 9,
The second quantum energy generator 320
A first quantum composed of a cylindrical or rectangular parallelepiped body 301, a first gradient saddle coil or uniform saddle coil 322-1a, a second gradient saddle coil or uniform saddle coil 322-1b, and a power supply 328 Energy generator, first discharge electrode 322-2a installed on the first gradient saddle coil 322-1a, second discharge electrode 322-2b installed on the second gradient saddle coil 322-1b, ground electrode ( 323), a high voltage discharge unit composed of a third discharge electrode 324 and a power supply 328.
Two partition plates are installed at intervals inside the main body 301, and needle-shaped discharge electrodes 322- are protruded at intervals from the first gradient saddle coil 322-1a of the first quantum energy generator on the installed partition plates. 2a, 322-2b) and the second gradient saddle coil 322-1b, the needle-shaped second discharge electrodes 322-2b are installed to face each other inside the body 301 so as to protrude at intervals, and the first gradient The saddle coil (322-1a) and the first discharge electrode (322-2a) and the second gradient saddle coil (322-1b) and the first discharge electrode (322-2b) have a cylindrical shape at intervals and a rectangular hole is formed 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 surface of a plurality of extra holes is installed inside and outside, and the ground electrode 303 is installed. 303) A third discharge electrode 324 in which a plurality of discharge needles 324a, which are screw-shaped at intervals inside and one end of a certain length is machined into a cone shape on the outer circumferential surface, is installed at intervals, and the main body 301 ) If the pulsed power generated by the power supply 328 installed on one side of the outside is supplied to the first and second discharge electrodes 322-2a and 322-2b, the ground electrode 323, and the third discharge electrode 324, the winding The directions are opposite to each other in the first gradient saddle coil 322-1a and first discharge electrode 322-2a and the second gradient saddle coil 322-1b and second discharge electrode 322-2b wound in opposite directions. When the magnetic field in the form of a pulse in one direction is irradiated and the magnetic field in the form of a pulse in the opposite direction overlaps and disappears at the center distance of these coils 322-1a and 322-1b, pulsating quantum energy is generated and spreads in the space at the center distance. While being irradiated, 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 the ground electrode 323 At the three electrodes 324, multiple discharges initiate and form a high-field electron energy band, and in this band, the air constituents introduced by the fan 204 and the air The covalent bonds of odor-causing substances and harmful substances contained in the dissociation and decomposition, and the active radicals of singlet oxygen and hydroxyl ions generated in this process perforate the biofilm of bacteria and viruses suspended in the air to sterilize and sterilize discharge A quantum energy generator with a built-in discharge function for gas, liquid, and fluid processing, characterized in that the quantum energy generator has a built-in function. According to claim 9,
The third quantum energy generator 330 is composed of a housing 301, a gradient coil-shaped first quantum energy generating coil 331, a gradient coil-shaped second quantum energy generating coil 332, and a power supply 333c. A discharge unit composed of a quantum energy generator 330a, 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 lead wire 336f ( 330b),
The main body 301 is formed in any one of the shapes of a cylinder, a regular hexahedron, and a cuboid,
The first quantum energy generator 330a insulates the outer surface of the main body 301 with an insulating material to form an insulating layer, and the formed insulating layer has a plurality of inclined coils or toroid coils having opposite winding directions. , The second quantum energy generating coils 331 and 332 are installed facing each other to receive pulse-type power generated from the power supply 333a installed on one side outside the main body 301 through the wire 333d, and receive pulses in opposite directions. Irradiate a magnetic field in the form of a magnetic field and irradiate the inside of the body with pulsating quantum energy generated in a zero magnetic phase state by overlapping and extinguishing magnetic fields in the form of pulses in opposite directions at the center distance of the first and second quantum energy generating coils 331 and 332. Gas, liquid, quantum energy generator with a built-in discharge function for fluid processing, characterized in that. According to claim 11,
The high voltage discharge unit 330b of the third quantum energy generator 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 lead wire. (336f) composed of a discharge part (330b), the discharge electrode 334 and
The manufacturing of the ground electrode 335 is made by punching a hole into which the fixtures 337a and 337b are inserted at intervals on the upper and lower surfaces of a plurality of rectangular insulating plates of different heights selected from among Teflon, ceramic, and glass materials, and , Winding the coil in a clockwise or counterclockwise direction in the shape of an inclined coil or toroid coil deformed with a wire selected from tungsten (W), stainless steel, or titanium (Ti) on both surfaces, and The coils to be attached are wound in opposite directions, and discharge needles 334a and 334b having a certain length are attached to the exposed coils at regular intervals to form a first quantum energy generating coil and discharge electrode 334, a second Manufacture a quantum energy generating coil and ground electrode 335, or
Inclined coil shape or toroid coil shape and fixture ( Discharge needles 334a and 334b having a certain length in a coil-shaped plate material in which a hole into which 337a and 337b) is to be inserted is punched, and which material is selected from among tungsten (W), stainless steel, and titanium (Ti) on both surfaces The winding of the first quantum energy generating coil cum discharge electrode 334 and the second quantum energy generating coil cum ground electrode 335 manufactured by installing a plurality of them at intervals from each other adjacent to the fixtures 337a and 337b and the discharge electrode and the ground electrode After inserting and fixing with a fixing nut so that the directions of the coils are opposite to each other, insert it into the fixture installed on one side inside the body 301 and fix it, and then generate the pulse-type power generated by the power supply 336b installed on one side outside the body 301. When supplied to the plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and ground electrodes 335 through the conducting wire 336d, pulses in opposite directions are formed at an angle of 90 degrees to the current flow direction. As the magnetic field in the form of pulses in opposite directions overlaps and disappears 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, the zero magnetic field As pulsating quantum energy is generated and irradiated in this state, multiple discharges are initiated and a high-field electronic energy band is formed in the plurality of first quantum energy generating coils and discharge electrodes 334 and second quantum energy generating coils and ground electrodes 335. and the formed energy band is decomposed by dissociation of the covalent bonds of air constituents introduced by the fan 204, odor causing substances, and harmful substances contained in the air, and singlet oxygen and hydroxyl ions generated in this process A quantum energy generator with a built-in discharge function for gas, liquid, and fluid treatment, characterized in that the active radicals sterilize and sterilize by perforating the biofilm of bacteria and viruses suspended in the air. According to claim 9,
The fourth quantum energy generator 340 includes a body 301 composed of an outer cylinder 302 and an inner cylinder 303, a first quantum energy generating coil and heating element 341a, a power supply 341b, and a second quantum energy generator. A first quantum energy generating coil and heater 341 composed of a coil and heating element 342a and a power supply 342b; and a first quantum energy generating coil and heating element 341a and a part 343a of the outer cylinder 302 ), the first cathode 343 composed of the power supply 343b, the housing 344a installed on the outer circumferential surface of the inner cylinder 303, the first cathode 343 composed of the power supply 344b, first quantum energy generation A second quantum energy generator and high voltage discharge unit 345 composed of a coil and discharge electrode 345a, a second quantum energy generating coil and ground electrode 345b, and a power supply 345c, a second spur gear 346a, The inner cylinder 303 composed of the first spur gear 346b and the electric motor 346c The outer cylinder composed of the rotating body 346, the second spur gear 347a, the first spur gear 347b, and the electric motor 347c ( 302) A quantum energy generator with a built-in discharge function for gas, liquid, and fluid processing, characterized in that it consists of a rotating body 347 and an inner cylinder rotating seal 346d. According to claim 13,
The first quantum energy generator 342c of the fourth quantum energy generator 340 includes a first quantum energy generating coil and heating element 341a and a first cathode 343 installed inside a housing attached to the outer cylinder 302. The power supply 341b constituting the power supply 343b, the bias circuit, and the second quantum energy generating coil and heating element 342a and the second cathode 344 installed by interviewing the outer surface of the inner cylinder 302 It is composed of a supply 344b and a power supply 342b constituting a bias circuit, and the winding directions of the first quantum energy generating coil and heating element 341a and the second quantum energy generating coil and heating element 342a are mutually different. The first quantum energy generating coil and heating element 341a and the second quantum energy generating coil and heating element 342a pass the power in the opposite direction and in the form of pulses generated by the power supply 341b and the power supply 342b through the conducting wire. When supplied to the coils, magnetic fields in the form of pulses in opposite directions are irradiated, and magnetic fields in the form of pulses overlap and disappear at the center distance of these coils, generating and irradiating pulsating quantum energy in the zero magnetic field state, and tungsten (W), titanium (Ti) The first and second cathodes are heated to a high temperature capable of overcoming the work function value of the material to emit thermal electrons from the surface of the material, and the emitted thermal electrons are provided by the power supplies (341b and 343b, 342b and 344b) constituting a bias circuit. (343a, 344a) accelerating and colliding to heat the first and second cathodes (343a, 344a) A quantum energy generating device with a built-in discharge function for processing gases, liquids and fluids. According to claim 13,
The first cathode 343 is composed of a part 343a of the outer cylinder 302 insulated and a power supply 343b, and the second cathode 344 is a jacket installed on the outside of the inner cylinder 303 in a circumferential direction. It 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 the first quantum energy generating coil and heating element 341a, and a bias circuit. It is possible to overcome the work function value of the material by configuring a power supply 344b for the second cathode 344, a power supply 342b for the second quantum energy generating coil and heating element 342a, and a bias circuit. Thermal electrons emitted from the material surfaces of the first and second quantum energy generating coils and heating elements 341a and 342a heated to a high temperature are accelerated in the direction of the first and second cathodes 343 and 344 and the first and second The cathodes 343 and 344 are heated to a high temperature capable of overcoming the work function value of the material by a blow method to emit thermal electrons from the surface of the material of the first and second cathodes 343 and 344, and the high voltage discharge unit 345, the first quantum The flow path formed between the energy generating coil and discharge electrode 345a and the second quantum energy generating coil and ground electrode 345b strikes pollutants in the air introduced by the pressure fan 204 to form covalent bonds between pollutant molecules. A quantum energy generator with a built-in discharge function for processing gas, liquid, and fluid, characterized in that it dissociates and purifies, and sterilizes and sterilizes airborne bacteria and viruses. According to claim 13,
The high voltage discharge unit 345 of the fourth quantum energy generator 340 is a first quantum energy generating coil and discharge electrode 345a in the shape of a solenoid coil or trigger coil at intervals of the circumferential surface of the outer cylinder 302 that is insulated. is installed, and the second quantum energy generating coil and ground electrode 345b is installed at intervals on the insulated outer circumferential surface of the jacket-shaped housing installed by interviewing the outer circumferential surface of the inner cylinder 303, and the outer cylinder 302 ) and the first quantum energy generating coil and discharge electrode 345a and the second quantum energy generating coil, in which the winding directions of the coils are opposite to each other, through a conducting wire in the pulse form generated by the power supply 345c installed on the other side. When supplied to the discharge electrodes 345b, magnetic fields in the form of pulses in opposite directions are irradiated, and magnetic fields in the form of pulses in opposite directions are overlapped and extinguished, and pulsating quantum energy generated in the zero magnetic field state is irradiated and the first quantum energy generating coil Discharge starts and a high field electron energy band is formed between the cumulative discharge electrode 345a and the second quantum energy generating coil cum discharging electrode 345b, and the contaminated air passing through this band by the pressure fan 204 Discharge function for gas, liquid, and fluid treatment is built-in, characterized in that contaminants in the liquid are purified by electrochemical reactions of dissociation, excitation, ionization, oxidation, and reduction reactions of high voltage discharge, and airborne bacteria and viruses are sterilized or sterilized. Quantum energy generator. delete According to 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 energy generator. When pulse-type power is supplied from a plurality of quantum energy generating coils, pulse-type magnetic fields in opposite directions are irradiated and pulse-type magnetic fields in opposite directions overlap and disappear at the center distance between the plurality of quantum energy generating coils, resulting in a zero magnetic field. Built-in discharge function for processing gases, liquids, and fluids, characterized in that multiple high-voltage discharges are performed while pulsating quantum energy is generated and irradiated in the state to improve the purification efficiency of liquid materials including air and liquid materials including water. quantum energy generator. According to claim 1,
The heat exchanging unit 400 is formed by drilling holes of a predetermined diameter in the vertical diagonal direction on one side of the main body 401, the first quantum energy generator 410 installed on the outer circumferential surface of the main body 401, and Contaminated air inlet (404a) and outlet (404b), inlet (404a) and outlet (404b) installed in the center of both end surfaces in the horizontal direction of the main body (401), tube 402, installed on the outer circumferential surface of the tube (402) It is characterized in that it consists of a second quantum energy generator 420, 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. A quantum energy generator with a built-in discharge function for gas, liquid, and fluid processing. According to claim 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 wire,
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 a wire, and The shapes of the coils of the first quantum energy generating coils 411, 421, 431 and the second quantum energy generating coils 412, 422, and 432 of the first, second, and third quantum energy generators 410, 420, and 430 are
It is used by selecting any one of the solenoid coil shape or trigger coil shape, deformed trigger coil shape, cusp coil shape, Helmheltz coil shape, gradient saddle coil shape, and uniform saddle coil shape,
The material of the coil is a quantum energy generator with a built-in discharge function for gas, liquid, and fluid processing, characterized in that any one material is selected from tungsten (W), titanium (Ti), stainless steel, and hastalloy material. According to claim 1,
The quantum energy investigation unit 500
Electrolyzer 510 composed of main body 501, diffuser 502, + pole 511, diffuser and - pole 512, DC power supply 513, first quantum energy generating coil 521 , It consists of a quantum energy generator 520 consisting of a second quantum energy generating coil 522 and a power supply 523,
In the treatment of gaseous materials including air, dust is first removed from the first-stage dust collector 210 of the electric precipitator 200 supplied to the diffuser 502 to the gaseous materials including air introduced into the main body 501. In the additive supply unit 100, one or more materials selected from among a reducing agent for removing nitrogen oxides (NOX), a sulfur oxides (SOX) removing agent, an oxygen scavenger, a hydroxyl release agent, and a particle flocculating agent are selected and stored, and then connected to the venturi ejector 203. It is supplied and sprayed to the two-fluid nozzle 203b to mix with the dust-removed air, and after being secondarily dust-removed in the two-stage dust collector 220, the first, second, third, and fourth quantum energy generators 300 It flows into the quantum energy generator selected from among the quantum energy generators 310, 320, 330, and 340, and quantum energy is irradiated, or quantum energy irradiation and discharge reaction, or thermal electrons are emitted to supply purified and activated gas to gaseous materials including air to remove pollutants. While purifying, sterilizing and sterilizing airborne bacteria and viruses, the pulse form generated by the quantum energy generator 520 composed of the first quantum energy generating coil 521, the second quantum energy generating coil 522, and the power supply 523 Discharge for gas, liquid, fluid treatment, characterized in that the air purification efficiency and sterilization or sterilization efficiency of bacteria and airborne viruses are improved by irradiating the pulsating quantum energy generated as the magnetic field is irradiated and the pulsed magnetic field overlaps and disappears A quantum energy generator with built-in functions. delete According to claim 21,
The quantum energy investigation unit 500
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 accompanied by a pressure wave The biofilm of aquatic bacteria in contact with action and high-temperature gas is thermally shocked to destroy the biofilm and damage the internal organs to sterilize bacteria in the water, including algae, red algae, and blue-green algae Discharge for gas, liquid, and fluid treatment A quantum energy generator with built-in functions. According to claim 21,
The quantum energy generator 520 of the quantum energy irradiator 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 is composed of a first quantum energy generating coil. (521), the shape of the second quantum energy generating coil 522 is produced by selecting one of the shapes of a cusp coil, a Helmsheltz coil, a gradient saddle coil, a uniform saddle coil, a solenoid coil, a toroid coil, a Maxwell coil, or a trigger coil When the pulse-shaped power generated by the power supply 523 is supplied to the first quantum energy generating coil 521 and the second quantum energy generating coil 522 through the wire, the first quantum energy generating coil 521 And magnetic fields in opposite directions are generated and irradiated in the second quantum energy generating coil 522, and magnetic fields in opposite directions are generated 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 processing gases, liquids, and fluids, characterized in that pulsating quantum energy is generated and irradiated in a zero magnetic field state by overlapping and disappearing.

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