УСТРОЙСТВО ДЛЯ ПОЛУЧЕНИЯ ОЗОНА

FIELD: plants for production of ozone by acting on oxygen with high-frequency and high-voltage alternating current relative to dielectric. SUBSTANCE: proposed plant has cavity between two walls made from dielectric material where flat filament-like or reticular electrode whose length, width and thickness are the same as those of oxygen cavity is placed; oxygen cavity is hermetic; it is formed by walls and frame embracing the electrode. EFFECT: increased productivity; reduced sizes of plant; reduced sensitivity to moisture; minimum idle periods in maintenance. 6 cl, 7 dwg УГ б Эс ПЧ с» (19) РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ ВИ 2 169 114 МПК’ © 01 В 13/11 (13) С2 (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 98101253/12, 26.06.1996 (24) Дата начала действия патента: 26.06.1996 (30) Приоритет: 28.06.1995 ЗЕ 9502339-6 (43) Дата публикации заявки: 20.05.2000 (46) Дата публикации: 20.06.2001 (56) Ссылки: СН 609309 А5, 28.02.1979. КЦ 2024427 СЛ, 15.12.1994. $Ц 1390182 АД, 23.04.1988. СН 587181 АЪ, 29.04.1977. (85) Дата перевода заявки РСТ на национальную фазу: 28.01.1998 (86) Заявка РСТ: ЗЕ 96/00839 (26.06.1996) (87) Публикация РСТ: М/О 97/01507 (16.01.1997) (98) Адрес для переписки: 129010, Москва, ул. Б. Спасская, 25, стр.3, ООО "Городисский и Партнеры", Томской Е.В. (71) Заявитель: ОЗОН ТЕКНОЛОДЖИ АБ ($3Е) (72) Изобретатель: АРЛЕМАРК Ян ($Е) (73) Патентообладатель: ОЗОН ТЕКНОЛОДЖИ АБ (ЗЕ) (74) Патентный поверенный: Томская Елена Владимировна (54) УСТРОЙСТВО ДЛЯ ПОЛУЧЕНИЯ ОЗОНА (57) Изобретение относится к устройствам для получения озона посредством воздействия на кислород переменным током высокой частоты с высоким напряжением относительно диэлектрика. Устройство содержит полость между двумя стенками из диэлектрического материала, в которой находится плоский нитеобразный или сетчатый — электрод. Электрод имеет такие же длину, ширину и толщину, что и полость для кислорода, которая выполнена герметичной и образована стенками и ...

УСТРОЙСТВО ДЛЯ ПОЛУЧЕНИЯ ОЗОНА

FIELD: ozone production. SUBSTANCE: apparatus comprises high-voltage source and at least two spaced-apart planar electrodes. Dielectric material is interposed between both electrodes in such manner as to form at least one path for electric current flow. Novelty of apparatus resides in that at least one of planar electrodes is capable of vibrating, and it consists of two layers of electroconductive material, one layer of which is capable to vibrate. Both layers are separated by material with spring/damping effect and are secured in such manner as to permit vibration of electrodes. EFFECT: higher efficiency. 15 cl, 4 dwg всссо0тс ПЧ ГЭ РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ ЗВИ“” 2103 225 Сл (51) МПК С 01 В 13/11 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 93058273/25, 11.12.1992 (30) Приоритет: 12.12.1991 ОЕ Р 4141025.4 (46) Дата публикации: 27.01.1998 (56) Ссылки: 1. ОЕ, заявка, 2644978, кл. С 01 В ЗАТ, 1983. 2. ОЕ, патент, 299248, кл. С 01 В 1З/1Л, 19715. (86) Заявка РСТ: ЕР 92/02875 (11.12.92) (71) Заявитель: Манфред Римплер[0Е] (72) Изобретатель: Манфред Римплер[0Е] (73) Патентообладатель: Манфред Римплер[ОЕ] (54) УСТРОЙСТВО ДЛЯ ПОЛУЧЕНИЯ ОЗОНА (57) Реферат: Использование: в устройствах для получения озона. Устройство для производства озона выполнено с источником высокого напряжения и по меньшей мере двумя расположенными на расстоянии друг от друга ПЛОСКИМИ электродами С расположенными между ними для образования по меньшей мере одного пути протекания диэлектриком, причем, по меньшей мере один из плоских электродов способен вибрировать, плоский электрод состоит из двух слоев электропроводного материала, из которых по меньшей мере один слой способен вибрировать, между обоими слоями расположен материал, действующий пружинно-демпфирующим образом, и оба слоя закреплены для обеспечения возможности вибраций электродов. 14 з.пП. ф-лы, 4 ИЛ. РГ, 1 2103225 С1 КО всссо0тс ПЧ ГЭ (19) 13) ВИ ” 2103 225' (51) п. С1.6 С Ол В 13/11 СЛ ...

Vorrichtung und Verfahren zur Erzeugung von Ozon

Ozonisator

Improvements in or relating to Ozonisers.

... 108,293. Baker, W. S. Graff-. April 26, 1917. Gases, treating electrically.-In an ozone-generator, the metal plates A, A<1>, between which air or oxygen is passed are embossed to form projections A<2>, A<3>, which space apart the dielectric plates B and register with one another so that the uniformity of distance of the metal plates is preserved. Each metal plate may have four such projections, arranged at the cornersof a square. End slabs F<1> overlapping the projections are engaged by screws F in frame plates C to compress the assemblage of metal and dielectric plates. The metal plates may be threaded alternately on upper and lower pairs of terminal rods E, E<1>, which rest at their ends in recesses in battens D on the frame plates. The dielectric plates rest on the lower rods E<1>, and may be removed laterally after the compression is relaxed. Bolts C' surrounded by insulating spacers C<2> connect the frame plates C. The whole may be mounted on castors G.

Improvements in apparatus for converting oxygen to ozone

... 1,059,632. Ozonizers. BRITISH OXYGEN CO. Ltd. Feb. 11, 1964 [Feb. 12, 1963], No. 5703/63. Heading H5H. The ends of earth potential plates 21 in an ozonizer are cast in a block 36 of low melting point metal to provide good thermal contact with a cooling chamber 32. The chamber comprises copper baffles around which refrigerant is circulated by pipes 33, 34. The earth electrodes 21 are of copper sheet and the high tension ones 20 are of aluminium gauze, with mica insulation 22. The plates are spaced by vertical edge strips of plastics material which also constrain the gas (oxygen) to flow through the plate assembly. There is a pressure resistant casing 1, 2, with a safety valve and bursting disc, the gas entering at 6 and leaving at 8. Dimensions and performance figures are given.

CORONA REACTIONS

... 1482945 Corona discharge reactors UNION CARBIDE CORP 7 Aug 1974 [13 Aug 1973] 34874/74 Heading H5H Corona discharge zones 15, 16, 17 are connected in series with heat exchangers 20, 21 between each pair and operated such that a reactant gas (oxygen; nitrogen, hydrocarbon mentioned) removes all excess heat from each zone, each heat exchanger removes all the excess heat from the gas before reaching a subsequent zone, the gas temperature being reduced by at least 100‹ C., and the power consumption in each zone being maintained in the range 100 to 100,000 watts per 0À0929 square metres of discharge electrode surface. Heat exchangers and corona generating cells are conventional (examples described). Electrode separation is 0À0025 to 13 mm., gas pressure 35 to 3500 g. per sq. cm., current 50 to 100,000 Hz and 1000 to 30,000 peak volts.

Ozone generator and a method for the generation of ozone.

The present invention relates to an apparatus and a method for generating ozone by exposing oxygen to a high frequency alternating current with high voltage over a dielectric. In order to provide a simple, compact and low cost design, capable of increasing the power and improving the conversion efficiency of the apparatus, and to prevent the apparatus from damage or efficicency decrease, the apparatus comprises a pressure compensation admitting unit, joint together by at least two plates (2,2)of a dieletric material and there between a present electrode (4), on which a high frequency alternatively current with high voltage is applicable, and two sealed spaces (1,1)for generation of ozone on opposite sides of said unit (1,2',4), whereby the respective sealed space (1,1'),on the opposite side of said plate (2,2')of dieletric material, is delimited by an earthed and cooled electrode (3,3'), through which oxygen gas or gas rich in oxygen is supplied to the space(1,1')and ozone is conducted ...

Ozone generator and a method for generation of ozone.

Ozone generator and a method for the generation of ozone

CORONA UNLOADING REACTION SYSTEM AND PROCEDURE FOR THE EXECUTION OF REACTIONS BY CORONA DISCHARGES

EINRICHTUNG ZUR WASSERAUFBEREITUNG MIT OZON

Ozone generator unit and system

The present disclosure seeks to provide an ozone generator unit. The present disclosure also seeks to provide an ozone generator system. The present disclosure seeks to provide a solution to the existing problems of pressure variations and cooling of ozone generators. An aim of the present disclosure is to provide a solution that overcomes at least partially the problems encountered in prior art, and provides a solution for uniform flow of the gas stream, and efficient cooling for ozone generators. Disclosed is an ozone generator unit. The ozone generator unit comprises a housing (102). The housing comprises a first half (104) having a first recess (204) and a second half (106) having a second recess (206). The ozone generator unit further comprises an inlet (202) and an outlet (110) in the housing, a first dielectric disc (210) arranged within the first recess in contact with an inner surface (240) of the first half, a second dielectric disc (214) arranged within the second recess in contact ...

Ozone generator with position-dependent discharge distribution

The invention relates to an ozone generator comprising a high-voltage electrode (5) and at least one counter electrode (1), which define an interstice in which at least one dielectric (2) is arranged and through which a gas flows in the flow direction, the high-voltage electrode (5) and the at least one counter electrode (1) being provided with a connection for an electrical voltage supply unit (7) to generate silent discharges that originate from surface points, and the average distance between the high-voltage electrode (5) and the at least one counter electrode (1) and the average striking distance being constant while the number of surface points from which the silent discharges originate decreases in the direction of flow.

Ozone generator with position-dependent discharge distribution

The invention relates to an ozone generator comprising a high-voltage electrode (5) and at least one counter electrode (1), which define an interstice in which at least one dielectric (2) is arranged and through which a gas flows in the flow direction, the high-voltage electrode (5) and the at least one counter electrode (1) being provided with a connection for an electrical voltage supply unit (7) to generate silent discharges, a flat wire structure being arranged in the gas flow and its density decreasing in the flow direction.

CORONA GENERATOR METHOD AND APPARATUS

METHOD FOR CONTROLLING AN OZONE GENERATOR

The invention relates to a method for controlling an ozone generator having a high-voltage electrode (5) and at least one counter electrode (1), wherein the high-voltage electrode (5) and the at least one counter electrode (1) bound an intermediate space, in which at least one dielectric is arranged and through which an oxygen-containing gas having a particle density ngas flows, and wherein the high-voltage electrode (5) and the at least one counter electrode (1) are provided with a connection point for a voltage supply (7) for producing silent discharges in at least one discharge gap, and wherein sparking distances d of the discharge are distributed between a least sparking distance dmin and a greatest sparking distance dmax, and wherein, for an ozone concentration to be produced that is greater than 12 wt% ozone, the voltage amplitude U0 of an alternating voltage at the voltage supply (7) is selected in such a way that U0 < 130*10-21V*m2 * ngas * dmax * (CDL+Cg)/CDL, with CDL = capacitance of the dielectric and Cg = capacitance of the discharge gap.

OZONE GENERATOR

MULTIPLE OXYGEN ALLOTROPE GENERATOR

An oxygen allotrope generator (101) having a tube (103) with an electrically grounded outer surface (104) and an electrically positive inner surface (105). A plurality of corona reaction plates (116) are spaced along the interior of the tube, the plates being longitudinally inter-connected by wires (117, 118, 121) and being in electrical connection with the electrically positive (109, 110) inner surface of the tube. An outer jacket (112) encloses the tube and provides a second linear pass for partially ozonated gas to flow in the generator. An alternative embodiment includes external distributed ground connections (108) at the locations of the corona reaction.

OZONE GENERATOR WITH POSITION-DEPENDENT DISCHARGE DISTRIBUTION

The invention relates to an ozone generator comprising a high-voltage electrode (5) and at least one counter electrode (1), which define an interstice in which at least one dielectric (2) is arranged and through which a gas flows in the flow direction, the high-voltage electrode (5) and the at least one counter electrode (1) being provided with a connection for an electrical voltage supply (7) to generate silent discharges which are discharged from surface locations, and wherein the mean spacing between the high-voltage electrode (5) and the at least one counter-electrode (1) and the mean sparking distance are constant, wherein the number of surface locations from which the silent discharges are discharged decreases in the flow direction.

PLASMA MICROREACTOR APPARATUS, STERILISATION UNIT AND ANALYSER

Apparatus for the production of a product gas (eg hydrogen and ozone) comprises: a supply of reactant gas (eg oxygen and steam); a pair of electrodes with a space between them of less than 1 mm; a conduit to lead the reactant gas from the source through the space between the electrodes; a power source to apply a voltage across the electrodes to dissociate the reactant gas and ultimately permit formation of product gas; and a conduit to supply the product gas to an outlet. A sterilisation unit for water treatment employs such apparatus and includes a fluidic oscillator to oscillate the flow of oxygen and/or ozone, and wherein said outlet comprises a plurality of orifices to be submerged in said water and for the purpose of forming micro bubbles of ozone. An analyser for detecting large organic molecules in eg air can employ the ozone generator to breakdown the large molecule into simpler and easier-to-detect-and-identify molecules.

OZONE GENERATING APPARATUS

There is provided a highly efficient and compact ozone generating apparatus in which a very short air gap of about 0.2 mm is formed at high accuracy. Non-discharge portions are dispersed and disposed to cover an entire discharge space, or a spacer is provided to form the non-discharge portion. Further, an elastic body is mounted on a back face of an electrode, thereby enhancing an air gap accuracy of the discharge space.

OZONIZER, WATER PURIFIER AND METHOD OF CLEANING AN OZONIZER

An ozonizer and water purifier equipped with the ozonizer comprising an ozonizing discharge element; an electric circuit for applying a voltage to the ozonizing discharge element so as to produce an ozone-generating discharge; a housing having an opening formed therein for receiving the ozonizing discharge element; a cover which seals the ozonizing discharge element in the housing; and means for turning off the voltage applied to the ozonizing discharge element when the cover is removed. In another embodiment, at least a part of the cover or housing is transparent so as to enable detection of the discharge state of the ozonizing discharge element. Also disclosed is an ozonizer and a water purifier comprising the ozonizer which includes a discharge element for generating ozone by discharge, wherein ammonium nitrate and other substances adhere to the discharge element upon discharge; and a heat generating element for heating the discharge element to a predetermined temperature which induces ...

Ozonerzeuger

Ozonerzeuger.

Platten-Ozonapparat

Appareillage pour la production d'ozone

Einrichtung zur Erzeugung von Ozon

Corona-Reaktorzelle zum Behandeln fluider Medien mittels einer Coronaentladung und Verfahren zum Betrieb der Zelle

Apparat zur Erzeugung von Ozon

Einrichtung zum Behandeln fluider Medien mittels einer Coronaentladung und Verfahren zum Betrieb dieser Einrichtung

Appliance for generating ozone

Flat assembly for generating ozone from air comprises a dielectric support sandwiched between two electrode arrays of different geometry, with only the rear array supplied with voltage

Flat assembly for generating ozone from air comprises a dielectric support sandwiched between two electrode arrays of different geometry coated with insulating material. The rear array comprises at least two flat electrodes supplied with AC voltage and the front array comprises at least two electrically connected electrode structures comprising multiple geometric elements with a maximum possible ratio between edge length and geometric surface area.

OZONE GENERATOR AND METHOD OF PRODUCTION OF OZONE

ГЕНЕРАТОР ОЗОНА И СПОСОБ ПОЛУЧЕНИЯ ОЗОНА

... 1. Пластинчатый генератор озона, содержащий высоковольтный электрод (4), расположенный посередине между двумя одинаковыми камерами (1, 1') коронного разряда, в котором каждая камера с одной стороны отделена от высоковольтного электрода диэлектрическими пластинами (2, 2') и ограничена вторыми электродами (3, 3'), отличающийся тем, что каждый из указанных вторых электродов является заземленным электродом, представляющим собой металлический блок, который задает границу одной из указанных камер по отношению к противоположной ему диэлектрической пластине и в котором имеется впускной канал (5, 5') для газа и выпускной канал (6, 6') для газа, входящие в ограниченную камеру, а также выполненный в каждом металлическом блоке канал для охлаждающей жидкости, предназначенный для охлаждения заземленного электрода, и тем, что указанный высоковольтный электрод находится в непосредственном контакте с диэлектрическими пластинами, образуя, по существу, плоский модуль. 2. Генератор озона по п.1, в котором ...

Ozone generator

Apparatus ozonor of industrial use

Ozone generator

Improvement with the producing ozone apparatuses by emanations

Improvements with the producing ozone apparatuses by the electric emanations

Apparatus for the production of ozone

Ozone generator unit for an air conditioning system of a motor vehicle, comprises a stack of two plates made of a dielectric material and having a passage, first and second electrodes formed between and on the plates respectively

Unité génératrice d'ozone pour système de climatisation d'un véhicule automobile, comprenant : un empilage (2) de deux plaques (3, 4) en une matière diélectrique, accolées et présentant un passage (9) qui les traverse ; au moins une première électrode (10) formée entre lesdites plaques, s'étendant autour dudit passage et présentant une partie non recouverte par l'une desdites plaques et formant une première zone de connexion électrique extérieure (12) ; et au moins une seconde électrode (15, 21) formée sur l'une desdites plaques, sur une face extérieure dudit empilage, s'étendant autour dudit passage et présentant une seconde zone de connexion électrique extérieure (18).

Sätt och anordning vid en trycksatt ozongeneratorenhet

Method and apparatus for ozone generation and treatment of water

A water treatment apparatus is provided in which the ozone generation and the water treatment may take place simultaneously. The ozone is generated from a continuous supply of air and/or oxygen at the surface of a running water by means of a high voltage electrode placed in the air or in oxygen at some distance above the water surface. The strong electric field between the high voltage electrode and the surface of the electrically grounded water stream generates a multitude of small Taylor cones at the surface of the water. Each Taylor cone goes into corona and in the process it generates the ozone. As the ozone is generated at the water surface, a substantial amount of ozone is immediately dissolved in water and the ozone that diffuses in the air continues to be in contact with the water surface. The undissolved ozone may be percolated through the same water for an additional primary or secondary ozonation.

Electro-kinetic air transporter and conditioner devices with special detectors and indicators

An air-transporter conditioner device includes a housing defining an inlet and an outlet. An electro-kinetic system is disposed in the housing to create an airflow moving from the inlet to the outlet. A timer measures a time period corresponding to the electro-kinetic system and causes an indicator light to illuminate when the measured period reaches a threshold. An arc sensing circuit detects arcing between the first and second electrode arrays of the electro-kinetic system. The electro-kinetic system is turned off in response to arcing being detected by the arc sensing circuit. An indicator light can also specify that arcing has been detected.

Ozone generating apparatus

There is provided a highly efficient and compact ozone generating apparatus in which a very short air gap of about 0.2 mm is formed at high accuracy. Non-discharge portions are dispersed and disposed to cover an entire discharge space, or a spacer is provided to form the non-discharge portion. Further, an elastic body is mounted on a back face of an electrode, thereby enhancing an air gap accuracy of the discharge space.

Electrode cleaning for air conditioner devices

Methods for cleaning a first group of electrodes contained within an air conditioner are provided. A second group of electrodes within the air conditioner has a cleaning device fastened therewith. The cleaning device engages the first group of electrodes. A method includes removing the second group of electrodes from the air conditioner, and replacing the second group of electrodes back into the air conditioner.

Ozone Generator, System, and Methods for Retrofit of Enclosed and Air-Conditioned Environments

An ozone generator includes at least four independent ozone generation control channels that energize at least four independent ozone generation plates. The at least four independent ozone generation control channels allow for multiple modes of operation, including sterilization, disinfecting, and managing, in addition to interleaved operation, which significantly extends the useful life of the individual ozone generation plates. The ozone generator is placed in a preexisting conditioned airflow that enters a conditioned airspace enclosed by a container. Being placed in the preexisting conditioned airflow, the ozone generator does not require a fan or other air movement device to actively transport ozone-enriched air or oxygen through the ozone generator. 1. A conditioned airflow ozone generator for generating ozone in an enclosed airspace , the ozone generator comprising: where the back and the front are substantially planar, the top and the bottom are substantially planar, and the left and right sides are substantially planar,', 'where from 10% to 70% of the surface area of the back includes perforations allowing passage of the previously existing airflow,', 'where from 10% to 70% of the surface area of the front includes perforations allowing passage of the previously existing airflow,', 'where from 30% to 95% of the surface area of the bottom includes perforations allowing passage of the previously existing airflow;', 'a right attachment side extending between the back and the front of the enclosure;', 'a right attachment member attached to the right attachment side, the right attachment member configured to attach the right attachment side to the interior of an enclosed airspace including a previously existing conditioned airflow;', 'a left attachment side extending between the back and the front of the enclosure;', 'a left attachment member attached to the left attachment side, the left attachment member configured to attach the left attachment side to the ...

Ozone generator

An ozone generator comprises a pair of spaced opposing electrodes, electrically conductive members connecting the pair of electrodes to a high-voltage alternating-current power source to generate an electric discharge between the electrodes, a dielectric provided between the opposing electrodes, and a gas flow passage for effecting flow of a material gas defined by the surfaces of the electrodes. At least one of the surfaces of the pair of electrodes has a plurality of parallel grooves. The material gas flows in a space between the plurality of grooves and the dielectric, in a direction transverse to the grooves.

An ozone generator

Improvements in Ozone Generators.

... 128,867. Joseph, E. L. Feb. 13, 1919. Gases and vapours, treating electrically. - In an ozone-generator of the type in which a number of parallel plate electrodes alternate with dielectric sheets, the electrodes are made of trapezoidal shape, the projecting triangular portions providing an increased cooling surface and at the same time serving for the electrical connexion and the clamping together of the electrodes. The trapezoidal electrodes b, c, Fig. 2, separated by rectangular sheets d, have their projecting portions e, f oppositely arranged, so that the portions of electrodes of the same polarity overlap. Rods h, j pass through holes in the projecting portions and through metallic washers k, thereby serving to maintain the electrodes at the correct distance apart and to conduct current to them. The assemblage is contained in a casing surrounded by a water-cooled jacket o. Within the casing, baffle-plates y, z, Fig. 4, are obliquely arranged in such a way that the air passage to and ...

Improvements in or relating to ozonisers

... 824,238. Producing ozone. TRUB, H. July 25, 1958, No. 24115/58. Class 39(1). A plate-type ozonizer with dielectric plate 1 and perforated electrodes 2, 3 which are spaced apart at the edges and at the centre by spacing members 4, 5, 6, Fig. 1, or bulges 12 in the electrodes, Fig. 5, has clamping means at the edges consisting of resilient insulating members 13, Fig. 5. The members 13 extend inwards from outer frame members 10, and have a mechanical bias which tend to urge the electrodes together. The outer frame members 10 are seated in slots 20 in the housing 17. The electrodes are at least 0À7 mm. thick and are so mechanically pretensioned that they have in the free state the shape of a spherical dome or a section of a cylinder. The frame members 10 may be located relative to one another by bores and locating pins provided at the corners. Several ozonizing units may be assembled in the housing.

PROCEDURE AND DEVICE FOR THE PRODUCTION OF OZONE AND TREATMENT OF WATER

KORONAENTLADUNGS-REAKTIONSSYSTEM UND VERFAHREN ZUR DURCHFUEHRUNG VON REAKTIONEN DURCH KORONAENTLADUNGEN

DEVICE FOR THE PRODUCTION OF OZONE

MODULAR OZONE MANUFACTURE SYSTEM

OZONE GENERATOR

MECHANISM FOR WATER PURIFICATION WITH OZONE

Plasma generator, ozone generator, substrate processing apparatus, and method for manufacturing semiconductor device

A method and device for producing ozone

Ozone and other reactive gas generator cell and system

DIELECTRIC LIQUID-IMMERSED CORONA GENERATOR

Ozone generator

Cold plasma ozone generator

The present invention provides a cold plasma ozone generator, comprising: an inlet gas port; at least one in-electrode, said in-electrode having a plurality of holes substantially at a perimeter of the same; said plurality of perimeter holes are in fluid communication with said inlet gas port, said plurality of perimeter holes configured to allow said dry gas to pass therethrough; at least one out-electrode, said out-electrode having at least one hole at the center of the same, said at least one hole configured to allow gas to pass therethrough; said in-electrode and said out-electrode configured to maintain said high voltage AC therebetween; at least one spacer between said in-electrode and said out-electrode, said spacer configured to maintain a constant-width gap between said in- electrode and said out-electrode; an outlet port.

METHOD AND APPARATUS FOR CONDUCTING A CHEMICAL REACTION IN THE PRESENCE OF CAVITATION AND AN ELECTRICAL CURRENT

Disclosed is a method and apparatus for conducting a chemical reaction. The reaction is conducted in a reaction vessel or mixing occurring in at least a partial liquid environment in which reactants are disposed. The reaction is conducted in the presence of cavitation and an electrical current.

PLASMA MICROREACTOR APPARATUS, STERILISATION UNIT AND ANALYSER

Apparatus for the production of a product gas (eg hydrogen and ozone) comprises: a supply of reactant gas (eg oxygen and steam); a pair of electrodes with a space between them of less than 1 mm; a conduit to lead the reactant gas from the source through the space between the electrodes; a power source to apply a voltage across the electrodes to dissociate the reactant gas and ultimately permit formation of product gas; and a conduit to supply the product gas to an outlet. A sterilisation unit for water treatment employs such apparatus and includes a fluidic oscillator to oscillate the flow of oxygen and/or ozone, and wherein said outlet comprises a plurality of orifices to be submerged in said water and for the purpose of forming micro bubbles of ozone. An analyser for detecting large organic molecules in eg air can employ the ozone generator to breakdown the large molecule into simpler and easier-to-detect-and-identify molecules.

PLATE-TYPE OZONIZER

A plate-type ozonizer capable of suppressing the deformation of plate discharging cells and securing a high ozone-generating efficiency where a high-concentration and high-pressure ozone gas is to be generated. An ozonizer body 10, in which a plurality of discharging cells 11 are stacked one above the other, is housed in a pressure vessel 20. The pressure vessel 20 is supplied with a pressurized gas having a pressure equal to or almost equal to that of the raw material gases which are supplied to said discharging cells 11. Thus, there is little or no differential pressure between the inside and the outside of the discharging cells 11 and therefore the discharging cells 11 are not subject to being deformed by unequal inner and outer pressure forces. A dried gas is used as the pressurized gas to also prevent poor insulation due to a dewing or condensation.

OZONE GENERATOR

Ozone generator

Ozone generator

Corona generator for ozone, prodn

corona unloading generator and method for generating ozone

DEVICE FOR the PRODUCTION Of OZONES

L'invention concerne un dispositif pour la production d'ozone. Dans l'espace intérieur d'un tube à décharge 1 dont les parois sont réalisées en une matière non conductrice d'électricité, on dispose face à face et à l'écart l'une de l'autre deux électrodes en plaques 3, 4 raccordées à une source de haute tension de courant alternatif 11 et/ou à une source de haute tension pour un courant coutinu pulsatoire, au moins une électrode bipolaire 2 étant disposée sans raccordement de courant entre ces électrodes 3, 4. Le dispositif de l'invention est utilisé pour produire de l'ozone sans diélectrique, sans refroidissement du dispositif et sans déshumidification du gaz oxygéné à transformer en ozone. The invention relates to a device for the production of ozone. In the interior space of a discharge tube 1, the walls of which are made of an electrically non-conductive material, two plate electrodes 3, 4 are placed face to face and away from each other. connected to a high voltage source of alternating current 11 and / or to a high voltage source for a pulsating direct current, at least one bipolar electrode 2 being arranged without current connection between these electrodes 3, 4. The device of the The invention is used to produce ozone without dielectric, without cooling the device and without dehumidifying the oxygenated gas to be transformed into ozone.

CORONA REACTORS AND CELLS THEREFOR

OZONE GENERATOR WITH IN-LINE SENSOR

An apparatus for generating ozone from an oxygen supply. The apparatus comprising grids mounted in an enclosure and a high voltage circuit coupled to the grids for generating an electric field. The high voltage circuit receives AC power and includes a control circuit for producing a linearly controlled high voltage output from the AC feed for energizing the grids. The apparatus also includes an in-line sensor for determining the level of ozone being produced without affecting the ozone concentration. The high voltage circuit is also suitable for other applications where a precisely controlled high voltage output signal is needed.

PLASMA GENERATOR, OZONE GENERATOR, SUBSTRATE PROCESSING APPARATUS, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE

A generator which generates a plasma or ozone highly efficiently is disclosed. The generator has a simple structure and can be handled easily. An electrode portion (10) is composed of electrodes (11, 12) without interposition of a dielectric body. An arc-suppression capacitor (13) as a charge storage portion where charges are stored is connected in series with the electrode portion (10). An alternating-current power supply (15) is connected to the both ends of the series circuit composed of the electrode portion (10) and the arc-suppression capacitor (13) for charging/discharging the arc-suppression capacitor (13) through application of an alternating voltage, so that a self arc-suppressing discharge occurs between the electrodes (11, 12), thereby generating a plasma. The arc-suppression capacitor (13) and the electrode (12) of the electrode portion (10) connected thereto are unitized to multipolarize the electrode portion easily. The unit is composed of a floating electrode which serves ...

OZONE GENERATING APPARATUS

An ozone generating apparatus is provided which includes a pair of electrodes for producing a discharge by the application of an ac voltage therebetween, and at least one dielectric provided between the pair of electrodes. A source gas containing oxygen is provided into a discharge space in which the discharge is produced to generate ozone by the action of the discharge. A surface lying between at least one of the pair of electrodes and the discharge space and in contact with the discharge has a surface resistivity of 104 Omega to 1011 Omega. The source gas provided into the discharge space includes ultrapure oxygen having a purity of not less than 99.9%.

PLATE-SHAPED OZONIZER

An ozonizer, wherein plate-shaped electric discharge cells are prevented from being deformed, and, even when ozone gas of high concentration and high pressure is produced, an outstanding ozone generation efficiency can be secured. The main body (10) of the ozonizer formed by stacking a plurality of electric discharge cells (11) is housed in a pressure vessel (20). Pressurized gas having a pressure equal to the pressure of material gas supplied to the electric discharge cells (11) is supplied to the pressure vessel (20). The difference between the interior and the exterior of an electric discharge cell (11) is eliminated, so that the deformation of an electric discharge cell (11) is prevented. Dry gas is used as the pressurized gas, whereby the insulation failure due to condensation can be avoided.

OZONISIERUNGSVORRICHTUNG

AN OZONE GENERATOR FOR A FISH TANK

An ozone generator (2) for a fish tank (4), comprises a gas (e.g. neon) filled discharge device 6 forming a dielectric, an anode 8 extending from the discharge device 6, a cathode 10 positioned around the outside of the discharge device 6, capacitor discharge means 26 for feeding a needle pulsed voltage to the anode 8, and connector means (28) for connecting the ozone generator (2) in an air line (30) of the fish tank (4), the ozone generator (2) being such that in use air in the air line (30) enters the ozone generator (2) and, when a high voltage is applied to the anode 8, ozone is generated at the cathode 10 to produce a mixture of air and ozone for the fish tank (4). ...

Dielectric spacer arrangements for electrodes in ozone generators

An ozone generator including at least two confronting electrodes, at least one of which has a dielectric layer, said electrodes defining a corona discharge gap, has dielectric material distributed throughout the gap arranged to provide flow obstruction throughout the gap and cause the flows to be dispersed into multiple flow paths which paths interconnect within the gap. The material also acts as the electrode supports to maintain the gap, multiple regions of maximum thickness in a direction transverse to the gap, engaging the opposed electrode surfaces. The material may be in the form of partitions, pillars, spheres, or net/grid structures as shown in the figures. An open cell foam structure may be used. Gas flow is via inlet/outlet at the edge of the gap.

Generating ozone by corona discharge

An ozone generating cell includes at least two substantially planar electrodes 10,11 at a potential difference separated by a dielectric sheet 13, each producing a corona discharge to convert a proportion of any oxygen present to ozone. The electrodes, when considered in plan, are generally offset with regions of the electrodes overlapping or almost overlapping each other, and regions of both electrodes not overlapping each other. One or both planar electrode may be of a substantially rectangular 'U' shape.

Improvements in apparatus for producing ozone

... 859,871. Producing ozone. FORDERUNG DER FORSCHUNG AN DER EIDGENOSSISCHEN TECHNISCHEN HOCKSCHULE, GESELLSCHAFT ZUR. July 23, 1959 [July 24, 1958], No. 25383/59. Class 39(1). An ozonizer has plate-shaped elements 15, Figs 3 and 4, each consisting of an electrode 18 embedded between dielectric plates 16, 17 which project beyond the electrode, the spaces between the dielectric plates and between the plates and the electrode being completely filled with an adhesive binder 19, such as polyvinyl acetate, to exclude air. The dieelectric plates may consist of glass, mica or ceramic, and the electrode may consist of metal foil, e.g. of aluminium, or metallic netting or fabric. In manufacture foils of polyvinyl acetate which include softeners, such as tricresyl phosphate are placed between the electrode and the dielectric plates. Air is then evacuated from between the plates and the foils softened by heating. The assembly is then allowed to cool. In a modification, Figs. 5 and 6, the electrode 118 ...

Apparatus for generating ozone

... Apparatus for generating ozone consists of an ozonizing unit disposed in the air flow from a fan, which flow increases towards its periphery, and in close proximity to the fan, the effective ozonizing surfaces being increased towards the periphery of the air flow in correspondence with the volumes of air delivered, in area or number of layers per unit area or both. The electrodes may have spiral, volute, undulating grid, circular or similar forms and may consist of a plane surface or of a conoidal surface of revolution coaxial with the fan. The unit itself may consist of a tube of dielectric material having internal and external conductors, the latter consisting of a wire wound round the tube. To obtain increased effectiveness towards the periphery of the air flow, the coils of the outer conductor may be wound more closely together, or the dielectric tubes may be spaced more closely together, as for example ...

MECHANISM FOR WATER PURIFICATION WITH OZONE

OZONES GENERATOR WITH PRESSURE BALANCE AND PROCEDURE FOR THE PRODUCTION OF OZONES

DEVICE FOR THE PRODUCTION OF A PLASMA TO THE PRODUCTION OF OZONE AND/OR OXYGEN IONS IN AIR

CORONA UNLOADING REACTION SYSTEM AND PROCEDURE FOR THE EXECUTION OF REACTIONS BY CORONA DISCHARGES

SYSTEM AND PROCEDURE FOR THE PRODUCTION OF AN OPTIMIZED FUEL MIXTURE

Apparatus for purifying and deodorizing air

Plasma microreactor apparatus, sterilisation unit and analyser

Apparatus for the production of a product gas (eg hydrogen and ozone) comprises: a supply of reactant gas (eg oxygen and steam); a pair of electrodes with a space between them of less than 1 mm; a conduit to lead the reactant gas from the source through the space between the electrodes; a power source to apply a voltage across the electrodes to dissociate the reactant gas and ultimately permit formation of product gas; and a conduit to supply the product gas to an outlet. A sterilisation unit for water treatment employs such apparatus and includes a fluidic oscillator to oscillate the flow of oxygen and/or ozone, and wherein said outlet comprises a plurality of orifices to be submerged in said water and for the purpose of forming micro bubbles of ozone. An analyser for detecting large organic molecules in eg air can employ the ozone generator to breakdown the large molecule into simpler and easier-to-detect-and-identify molecules.

Method for controlling an ozone generator

The invention relates to a method for controlling an ozone generator having a high-voltage electrode (5) and at least one counter electrode (1), wherein the high-voltage electrode (5) and the at least one counter electrode (1) bound an intermediate space, in which at least one dielectric is arranged and through which an oxygen-containing gas having a particle density n ...

Ozone generator

A METHOD AND DEVICE AT AN OZONE GENERATOR UNIT

In a closed ozone generator unit (2) oxygen gas is transformed into ozone gas by means of alternating current, the oxygen gas being substantially pressurized before entry into the unit (2). The unit is exposed to an external pressure substantially equal to or higher than the pressure of the oxygen gas.

Ozonized biochar: phosphorus sustainability and sand soilization

Surface-oxygenated biochar compositions and sonication-ozonization methods create advanced hydrophilic biochar materials having higher cation exchange capacity, optimized pH, improved wettability, and toxin free components. These sonicated and ozonized biochar compositions are used as filtration materials for clean water and air, as phosphorus solubilizing reagents to mix with phosphate rock materials to make a slow-releasing phosphate fertilizer, as biochar soil additives to help solubilize phosphorus and reduce phosphorus fertilizer additions required to achieve desired soil phosphorus activity, crop uptake, and yield goals, as sand soilization reagents by utilizing their liquid gel-forming activity in the spaces among sand particles to retain water and nutrients and hold the sand particles together, as plant growth stimulants by using the humic acids-like surface-oxygenated biochar substances at a proper ppm concentration and as carbon sequestration agents to help control climate change for energy and environmental sustainability on Earth.

SYSTEMS AND METHODS FOR GENERATING OZONE

An ozone generating cell includes a corona discharge chamber with a curved side wall. The cell includes a high-voltage electrode, a ground electrode, and a dielectric material positioned between the high-voltage electrode and the ground electrode. The cell includes a gas channel formed between the dielectric material and the ground electrode. The channel has a first end in fluid communication with a gas opening in the dielectric material, which is in fluid communication with a gas port. The channel has a second end in fluid communication with another gas port. The channel further includes multiple concentric segments between the first and second ends of the channel. 1. An ozone generating cell , comprising:a. a first gas port;b. a second gas port;c. a power connection; and i. a curved side wall;', 'ii. a high-voltage electrode electrically coupled to the power connection;', 'iii. a ground electrode;', 'iv. a dielectric material comprising a gas opening in fluid communication with the first gas port, the dielectric material positioned between the high-voltage electrode and the ground electrode; and', a) a first end in fluid communication with the gas opening in the dielectric material;', 'b) a plurality of concentric segments; and', 'c) a second end in fluid communication with the second gas port., 'v. a gas channel formed between the dielectric material and the ground electrode, the gas channel comprising], 'd. a corona discharge chamber comprising2. The ozone generating cell of claim 1 , wherein the curved side wall forms a cylindrical side wall of the corona discharge chamber.3. The ozone generating cell of claim 1 , wherein the ground electrode is connected to the curved side wall and forms an end wall of the corona discharge chamber.4. The ozone generating cell of claim 1 , further comprising one or more channel walls claim 1 , wherein the gas channel is defined by the dielectric material claim 1 , the one or more channel walls claim 1 , and the ground electrode ...

OZONE GENERATOR WITH POSITION-DEPENDENT DISCHARGE DISTRIBUTION

An ozone generator includes a high-voltage electrode and at least one counter electrode, which define an interstice in which at least one dielectric is arranged and through which a gas flows in the flow direction. The high-voltage electrode and the at least one counter electrode are provided with a connection for an electrical voltage supply to generate corona discharges which are discharged from surface discharge locations. The mean sparking distance and the mean spacing between the high-voltage electrode and the at least one counter-electrode are constant. The number of surface discharge locations decreases in the flow direction. 18.-. (canceled)9. An ozone generator comprising:a high-voltage electrode;at least one counter electrode;an interstice configured to support a flow of gas in a flow direction between the high-voltage electrode and the at least one counter electrode, the interstice having at least one dielectric therein, the interstice defining a constant mean sparking distance and a constant mean spacing between the high-voltage electrode and the at least one counter-electrode;an electrical voltage supply connected to the high-voltage electrode and the at least one counter electrode; andone or more surface discharge locations configured to produce corona discharges, the number of surface discharge locations decreasing in the flow direction.10. The ozone generator according to claim 9 , wherein the number of surface discharge locations continuously decreases in the flow direction.11. The ozone generator according to claim 9 , wherein the surface discharge locations are arranged on the high-voltage electrode.12. The ozone generator according to claim 11 , wherein the high-voltage electrode comprise a mesh claim 11 , braid claim 11 , knit claim 11 , weave claim 11 , or winding of wire that defines said surface discharge locations.13. The ozone generator according to claim 12 , wherein the wire defines a mesh having a mesh width claim 12 , wherein the mesh ...

Ozone Generator

An ozone generator is contained in a housing having a fan for inducing air flow through the housing and over an ozone generating plate where atmospheric oxygen is electrochemically converted to ozone, which flows out of the housing through a grid opening. The ozone generating plate is defined by a glass plate having electrically conductive grids on both sides thereof and each grid is electrically powered to create corona discharge from the conductor; as air and oxygen in the air flows over the plate it is converted to ozone. 1. An ozone generator , comprising:a housing having an inlet and an outlet and a passageway therebetween;a fan;a power source;an ozone generator in the passageway, the ozone generator defined by a glass plate having opposed first and second sides, a first metallic grid attached to the first side of the plate and a second metallic grid attached to the second side of the plate;a first conductor electrically connected to the power source and to the first metallic grid; anda second conductor electrically connected to the power source and to the second metallic grid.2. The ozone generator according to including first and second non-conductive insulating blocks in the housing claim 1 , wherein the ozone generator is mounted to the first and second non-conductive insulating blocks and is thereby supported in the passageway3. The ozone generator according to wherein each of the first and second non-conductive insulating blocks includes an elongate slot formed in a face of said blocks and wherein the glass plate has opposed first and second side edges and the first and second side edges of the glass plate are received in the elongate slots formed in the respective first and second non-conductive insulating blocks.4. The ozone generator according to in which a first end of the first conductor is attached to the first non-conducting insulating block and a second end of the first conductor is in electrical contact with the first metallic grid claim 3 , and ...

OZONE GENERATOR AND OZONE GENERATION METHOD

In order to generate ozone, which is used for ashing and plasma cleaning, plasma generated in a decompressed chamber is conventionally used. But it is difficult to reduce the production cost of an ozone generation, because facility cost and process cost are expensive in a decompressed process. According to the present invention, ozone is generated by atmospheric pressure plasma CVD using dielectric barrier discharge generated by a plasma head where a plurality of plasma head unit members are installed in parallel to generate plasma by applying electric field or magnetic field via a dielectric member. Stable glow discharge plasma is formed even under atmospheric pressure by dielectric barrier discharge. Then, ozone can be generated under atmospheric pressure, and semiconductor device with low cost can be fabricated. 1. An ozone generator wherein a desired number of flow passage plates are stacked , and each discharge electrode , which is comprised of a ceramic member having a hollow portion and an electrode wire is place without contact with the ceramic member , is placed at the gas outlet side of the each flow passage plate.2. The ozone generator according to claim 1 , characterized in that a gas flow passage is formed along the side of the flow passage plate.3. The ozone generator according to claim 1 , characterized in that the hollow portion is in a vacuum state.4. The ozone generator according to claim 1 , characterized in that gas is enclosed in the hollow portion and the gas is noble gas.5. The ozone generator according to claim 4 , characterized in that the pressure in the hollow portion is reduced to less than or equal to 250 Torr.6. The ozone generator according to claim 4 , characterized in that the noble gas is Ar or Ne.7. The ozone generator according to claim 1 , characterized in that one terminal of the electrode wire was connected to a metal foil claim 1 , the end of the metal foil functions as an external extraction terminal claim 1 , and the metal ...

Multiple oxygen allotrope generator

An oxygen allotrope generator having a tube with an electrically grounded outer surface and an electrically positive inner surface. A plurality of corona reaction plates are spaced along the interior of the tube, the plates being longitudinally inter-connected by wires and being in electrical connection with the electrically positive inner surface of the tube. An outer jacket encloses the tube and provides a second linear pass for partially ozonated gas to flow in the generator. An alternative embodiment includes external distributed ground connections at the locations of the corona reaction.

METHOD FOR CONTROLLING AN OZONE GENERATOR

A method for controlling an ozone generator with a high-voltage electrode, at least one counter electrode, and a gap in which at least one dielectric is arranged and which is perfused by an oxygen-containing gas having a particle density n. The high-voltage electrode and the at least one counter electrode are provided with a connection for an electrical voltage supply for generating silent discharges in at least one discharge gap. Striking distances d of the discharge are distributed between a minimum striking distance dand a maximum striking distance d. For the generation of an ozone concentration>12 wt. % ozone, the voltage amplitude Uof an AC voltage on the electrical voltage supply is selected so that U<130*10V*m*n*d*(C+C)/C, with C=capacitance of the dielectric and C=capacitance of the discharge gap. 112.-. (canceled)13. A method for controlling an ozone generator with a high-voltage electrode and at least one counter electrode , wherein the high-voltage electrode and the at least one counter electrode delimit a gap in which at least one dielectric is arranged and which is perfused by an oxygen-containing gas having a particle density n , and wherein the high-voltage electrode and the at least one counter electrode include a connection for an electrical voltage supply for generating silent discharges in at least one discharge gap , and wherein striking distances d of the discharge are distributed between a minimum striking distance dand a maximum striking distance d , said method comprising:{'sub': 0', '0', 'gas', 'max', 'DL', 'g', 'DL', 'gas', 'max', 'DL', 'g, 'sup': −21', '2, 'generating an ozone concentration having greater than 12 wt. % ozone using a voltage amplitude Uof an AC voltage on the electrical voltage supply such that U<130*10V* m*n*d*(C+C)/C, with the particle density n, the largest striking distance d, the capacity of the dielectric Cand the capacity of the discharge gap C.'}14. The method according to claim 13 , wherein U<120*10V*m*n*d*(C+C)/C. ...

MULTIPLE OXYGEN ALLOTROPE GENERATOR

An oxygen allotrope generator having a tube with an electrically grounded outer surface and an electrically positive inner surface. A plurality of corona reaction plates are spaced along the interior of the tube, the plates being longitudinally inter-connected by wires and being in electrical connection with the electrically positive inner surface of the tube. An outer jacket encloses the tube and provides a second linear pass for partially ozonated gas to flow in the generator. An alternative embodiment includes external distributed ground connections at the locations of the corona reaction. 1. An oxygen allotrope generator comprising:a tube having a wall of a predetermined thickness, said tube wall having an inner surface and an outer surface and having a first end and a second end;an inlet connected to said first end of said tube and adapted to be coupled to a source of oxygen-containing gas;a first electrically conductive element on the outer surface of said tube, said first element being adapted to be connected to ground;a second electrically conductive element on the inner surface of said tube;a conductor for connecting said second electrically conductive element to a source of electrical power;a tubular jacket surrounding said tube and being spaced from said tube wall by a predetermined distance;an outlet for oxygen allotrope-containing gas to exit from said jacket; anda plurality of spaced corona reaction plates across the interior of said tube, said corona reaction plates being electrically conductive and being electrically connected to said second electrically conductive element.2. The oxygen allotrope generator claim 1 , and further comprising a longitudinal central support wire interconnecting said corona reaction plates.3. The oxygen allotrope generator of claim 1 , and further comprising a plurality of corona reaction wires interconnecting said corona reaction plates.4. The oxygen allotrope generator of claim 1 , and further comprising a plurality of ...

APPARATUS AND METHODS FOR ELECTRONIC MONITORING OF OZONE GENERATORS

Apparatus and methods for electronic monitoring of ozone generators are provided herein. In certain configurations, an ozone generator includes ozone generation circuitry for producing ozone and a control circuit that monitors the ozone generation circuitry to determine whether or not ozone is being properly produced. The control circuit includes an AC input that receives power from an AC power supply and one or more AC outputs for providing AC output voltages to the ozone generation circuitry. The control circuit further includes one or more AC current sensors used to monitor a status of ozone production by monitoring AC current flowing into the ozone generation circuitry via the control circuit's AC outputs. The control circuit alerts a user of the status of ozone production while avoiding a need for the user to test a treatment fluid for ozone concentration and/or manually inspect or test components of the ozone generator. 1. An ozone generator comprising:ozone generation circuitry; anda control circuit comprising an AC input configured to receive an AC input voltage and one or more AC outputs configured to provide one or more AC output voltages to the ozone generation circuitry,wherein the control circuit further comprises a first AC current sensor configured to sense an AC current flowing from a first AC output of the one or more AC outputs into the ozone generation circuitry.2. The ozone generator of claim 1 , wherein the ozone generation circuitry comprises a first generator plate claim 1 , wherein the first AC current sensor is configured to detect when the first generator plate is producing ozone.3. The ozone generator of claim 1 , wherein the control circuit is configured to generate at least one a visual indication claim 1 , an audio indication claim 1 , or an electronic notification based on the sensed AC current.4. The ozone generator of claim 1 , wherein the control circuit further comprises a second AC current sensor configured to sense an AC current ...

OZONE GENERATING MACHINE FOR USE IN A SHIP

Ozone generating machine for generating ozone in a ship, comprising: 2. Ozone generating machine (OGM) according to the preceding claim , wherein a perpendicular projection on the base (B) of said at least one pair of cross-brace beams (CB) is comprised within a perpendicular projection on the base (B) of the ozone generator (OG).3. Ozone generating machine (OGM) according to any one of the preceding claims , wherein the frame comprises at least one top reinforcing plate (TRE) attached to a top portion of a pillar (P) and to the top subframe (TSF) , and/or at least one bottom reinforcing plate (BRE) attached to a bottom portion of a pillar (P) and to the base (B).4. Ozone generating machine (OGM) according to the preceding claim , wherein said at least one top reinforcing plate (TRE) is attached to a top portion of a pillar (P) with two attachment points and to the top subframe (TSF) with two attachment points , and/or at least one bottom reinforcing plate (BRE) is attached to a bottom portion of a pillar (P) with two attachment points and to the base (B) with two attachment points.5. Ozone generating machine (OGM) according to any one of the or , wherein each beam of the cross-brace beams (CB) is attached to the top portion of a pillar (P) via a top reinforcing plate (TRE) and to the bottom portion of another pillar (P) via a bottom reinforcing plate (BRE).6. Ozone generating machine (OGM) according to any one of the preceding claims , wherein the ozone generator (OG) presents an axial length defining an axial direction , the axial direction being parallel to a base (B) plane defined by the base (B) , and wherein an axial length of each beam of said at least one pair of cross-brace beams (CB) is parallel to a longitudinal plane being parallel to the axial direction and perpendicular to the base (B) plane.7. Ozone generating machine (OGM) according to the preceding claim , comprising two pairs of pillars (P) , each pair of pillars (P) being equipped with one pair of ...

MULTIPLE OXYGEN ALLOTROPE GENERATOR

An oxygen allotrope generator having a tube with an electrically grounded outer surface and an electrically positive inner surface. A plurality of corona reaction plates are spaced along the interior of the tube, the plates being longitudinally inter-connected by wires and being in electrical connection with the electrically positive inner surface of the tube. An outer jacket encloses the tube and provides a second linear pass for partially ozonated gas to flow in the generator. An alternative embodiment includes external distributed ground connections at the locations of the corona reaction. 1. An oxygen allotrope generator comprising:a tube having a wall of a predetermined thickness, said tube wall having an inner surface and an outer surface and having a first end and a second end;an inlet connected to said first end of said tube and adapted to be coupled to a source of oxygen-containing gas;a first electrically conductive element on the outer surface of said tube, said first element being adapted to be connected to ground;a second electrically conductive element on the inner surface of said tube;a conductor for connecting said second electrically conductive element to a source of electrical power;a tubular jacket surrounding said tube and being spaced from said tube wall by a predetermined distance;an outlet for oxygen allotrope-containing gas to exit from said jacket; anda plurality of spaced corona reaction plates across the interior of said tube, said corona reaction plates being electrically conductive and being electrically connected to said second electrically conductive element.2. The oxygen allotrope generator claim 1 , and further comprising a longitudinal central support wire interconnecting said corona reaction plates.3. The oxygen allotrope generator of claim 1 , and further comprising a plurality of corona reaction wires interconnecting said corona reaction plates.4. The oxygen allotrope generator of claim 1 , and further comprising a plurality of ...

Ozone generator with position-dependent discharge distribution

An ozone generator includes a high-voltage electrode and at least one counter electrode, which define an interstice in which at least one dielectric is arranged and through which a gas flows in the flow direction, the high-voltage electrode and the at least one counter electrode being provided with a connection for an electrical voltage supply to generate silent discharges, and a wire fabric being arranged in the gas flow and its density decreasing in the flow direction.

Ozone generator

Ozone generator cells that include two thermally conductive plates that maintain contact between various layers of the cells in the absence of a bonding agent. The cells lack aluminum-containing materials in the discharge region of the cell.

OZONE GENERATOR OF A GAS BLOW-THROUGH TYPE, ESPECIALLY TO PRODUCE A GAS MIXTURE OF OZONE/AIR OR OZONE/OXYGEN

An ozone generator of a gas blow-through type, especially to produce a gas mixture of ozone/air or ozone/oxygen. An ozone producing structural unit in the path of the blown air or oxygen is used as ozone source. The ozone producing structural unit is operated on the principle of alternating current auxiliary electrode cold arc discharge with its capacity increased by limited arc discharge, with an alternating voltage voltage source. This solution does not result in high-temperature arc discharges, thus the fire hazard may be eliminated, and at the same time the device is capable of producing extremely large quantities of ozone. The ozone producing structural unit of the ozone generator is placed in one or more insulating housings/air ducts, placed in a direction parallel to or coaxial to the air blowing direction. Further details of the apparatus are disclosed herein. 11213124511067898. An ozone generator of a gas blow-through type , especially to produce a gas mixture of ozone/air or ozone/oxygen , said generator comprises electrode groups comprising two flat electrode plates () , one dielectric plate () disposed between the flat electrode plates () , insulating shim plates () arranged between each of flat electrode plates () and the dielectric plate () , as well as insulating spacer frame elements () and electrode studs () arranged on the flat electrode plates () , said electrode studs being electrically connected to a high voltage high frequency electric generator unit () of the ozone generator through a first high voltage cable () and a second high voltage cable () characterized by an outer insulating housing () , held together and fastened by suitable fastening screws () , wherein the outer insulating housing () is dimensioned so as to allow several electrode groups to be modularly arranged within said housing parallel to each other side by side and to be electrically connected.2112. The ozone generator according to claim 1 , characterized in that the at least ...

FLEXIBLE PLASMA APPLICATORS BASED ON FIBROUS LAYERS

Disclosed herein are flexible plasma applicators based on fibrous layers that are capable of rapidly sanitizing a surface via either direct or indirect contact with said surface. 1. A plasma applicator consisting of: wherein the first substrate layer and the second substrate layer are comprised of a fibrous base layer and a metallic surface layer,', 'wherein the adhesive layer binds the fibrous base layer of the first substrate layer to the fibrous base layer of the second substrate layer, and', 'wherein the metallic surface layer of the first substrate layer and the metallic surface layer of the second substrate are exposed and configured to be placed in conductive contact with a high voltage source to generate dielectric barrier discharge (DBD)-based plasma comprising at least one of volume plasma and surface plasma upon exposure to the high voltage source., 'a first substrate layer, a second substrate layer, and an adhesive layer,'}2. The plasma applicator of claim 1 , wherein the DBD-based plasma is configured to kill or inhibit growth of a microorganism or a virus on a surface or on an object.3. The plasma applicator of claim 1 , wherein the high voltage source is configured to apply an alternating current (AC) input with a frequency of about 1 kHz to about 10 kHz to the plasma applicator and a peak-to-peak voltage (Vp-p) ranging from about ±0.5 kV to about ±5 kV.4. The plasma applicator of claim 3 , wherein the AC input has a voltage of about 1 kV to about 100 kV.5. The plasma applicator of claim 1 , wherein the DBD-based plasma is configured to generate ozone.6. The plasma applicator of claim 1 , wherein the first substrate layer comprises a plurality of hexagon-shaped apertures forming a honeycomb pattern.7. A bandage for promoting wound healing claim 1 , comprising the plasma applicator of and a non-conductive spacer attached on a surface of the plasma applicator claim 1 , the non-conductive spacer being adapted to be placed on skin tissue.8. A device for ...

OZONE GENERATION APPARATUS

In an ozone generation apparatus, a discharge cell includes a first electrode part, a second electrode part, and a dielectric partition plate. The first electrode part and the second electrode part face each other, and the dielectric partition plate is provided between the first and second electrode parts.

OZONE GENERATOR AND INTERNAL COMBUSTION ENGINE WITH OZONE GENERATOR

An ozone generator and an internal combustion engine with the ozone generator that can raise ozone additive rate of whole intake air, while suppressing pressure loss in the intake pipe from increasing. The internal combustion engine with an ozone generator includes a tubular intake pipe, through an inner region of which air flows, an ozone generator having an electrode plate that makes ozone and is disposed in the inner region or in the intake pipe, and a limiter that limits the flow of air in the inner region of the intake pipe; the electrode plate has a planar dielectric and high-voltage-side and low-voltage-side electrodes adhered and fixed to the dielectric and is formed in a shape of a plate extending in a direction in which air flows. 116-. (canceled)17. An internal combustion engine with an ozone generator , comprising:a tubular intake pipe, through an inner region of which air to be taken into a cylinder flows;the ozone generator including an electrode plate that makes ozone produced and is disposed in the inner region or in the intake pipe; anda limiter that limits the flow of the air in the inner region,wherein the electrode plate has a planar dielectric and high-voltage-side and low-voltage-side electrodes adhered and fixed to the dielectric and formed in a shape of a plate extending in a direction in which the air flows,wherein the air inlet and the air outlet of the portion of the intake pipe, in which the electrode plate and the limiter are arranged, face each other, andwherein the limiter is a body separate from the tubular intake pipe, disposed in the inner region to be spaced apart by a gap from each of the intake pipe and the electrode plate, and extends in a direction from the air inlet to the air outlet, an end portion thereof facing the air inlet limits the flow of the air.18. The internal combustion engine with the ozone generator according to claim 17 ,wherein the limiter includes a columnar member formed in a shape of a column extending in ...

COLD PLASMA OZONE GENERATOR

The present invention provides a cold plasma ozone generator, comprising: an inlet gas port; at least one in-electrode, said in-electrode having a plurality of holes substantially at a perimeter of the same; said plurality of perimeter holes are in fluid communication with said inlet gas port, said plurality of perimeter holes configured to allow said dry gas to pass therethrough; at least one out-electrode, said out-electrode having at least one hole at the center of the same, said at least one hole configured to allow gas to pass therethrough; said in-electrode and said out-electrode configured to maintain said high voltage AC therebetween; at least one spacer between said in-electrode and said out-electrode, said spacer configured to maintain a constant-width gap between said in-electrode and said out-electrode; an outlet port. 1. A cold plasma ozone generator to generate ozone from oxygen in a gas , said cold plasma ozone generator comprising:an inlet gas port;at least one in-electrode, said in-electrode having a plurality of holes substantially at a perimeter of the in-electrode; said plurality of perimeter holes are in fluid communication with said inlet gas port, said plurality of perimeter holes configured to allow gas to pass therethrough;at least one out-electrode, said out-electrode having at least one hole at the center of the out-electrode, said at least one hole configured to allow gas to pass therethrough;said in-electrode and said out-electrode configured to maintain high voltage AC therebetween;at least one spacer between said in-electrode and said out-electrode, said spacer configured to maintain a constant-width gap between said in-electrode and said out-electrode, said constant-width gap configured to allow said gas to pass from said plurality of perimeter holes in said in-electrode to said at least one hole in said out-electrode; andan outlet port in fluid communication with said at least one hole in said out-electrode.2. The cold plasma ozone ...

OZONE GENERATOR VOLTAGE VERIFICATION LIGHT ASSEMBLY

An ozone generator voltage verification light assembly generates a visual or audible indicator, such as a neon light, to verify that an ozone generator is generating the proper voltage to generate ozone, and/or ozone generator voltage verification light assembly testing assembly operatively connects to an ozone generator, and visually indicates if an irregularity in voltage occurs. The ozone generator includes a power source for supplying electrical current, and a transformer that generates high voltage. The ozone generator also includes single or multiple ceramic plates disposed in a spaced-apart, parallel relationship, and coated with stainless steel mesh. Voltage generated by the transformer contacts the ceramic plates by means of an electrode. Accordingly, ozone is generated by discharging electricity through electrodes that contact in both sides of ceramic plate. 1. An ozone generator voltage verification light assembly , the assembly comprising: a power source supplying an electrical current;', 'a transformer generating high voltage by boosting voltage supplied from the power source;', 'at least one ceramic plate disposed in a spaced-apart, parallel relationship;', 'a metal housing encapsulating the ceramic plate; and', 'whereby, when the ozone generator is operational to generate ozone, a predetermined voltage is generated by the transformer, the predetermined voltage contacting both sides of the ozone plate via an electrode., 'an ozone generator operable to produce ozone, the ozone generator having2. The assembly of claim 1 , wherein the assembly operatively connects to the metal case and the electrode that supplies power to the ceramic plate claim 1 , the assembly detects the voltage passing to the ceramic plate claim 1 , the assembly generates an alert signal by turning off if the detected voltage exceeds a range of the predetermined voltage.3. The assembly of claim 1 , further comprising a metal housing and a handle.4. The assembly of claim 3 , wherein ...

PLASMA OZONE GENERATOR

A plasma ozone generator includes a discharge unit assembly, a high-voltage electrode bar assembly, an oxygen pipeline assembly, an ozone pipeline assembly, a cooling water inlet pipeline assembly, and a cooling water return pipeline assembly. By using the plasma ozone generator of the present disclosure, performance indicators such as a small volume, a high yield, small concentration decay, low power consumption, easy maintenance, and modularization are achieved, and an explosion-proof function and a flame-retardant function are generally provided, thereby achieving a safer and more reliable effect. 1. A plasma ozone generator , comprising:a discharge unit assembly,a high-voltage electrode bar assembly,an oxygen pipeline assembly,an ozone pipeline assembly,a cooling water inlet pipeline assembly, anda cooling water return pipeline assembly,wherein the discharge unit assembly is configured to produce a corona discharge;wherein the high-voltage electrode bar assembly is connected to the discharge unit assembly and is configured to feed a high-voltage current;wherein the oxygen pipeline assembly is connected to an inlet of the discharge unit assembly and is configured to feed oxygen;wherein the ozone pipeline assembly is connected to an outlet of the discharge unit assembly and is configured to emit ozone; andwherein the cooling water inlet pipeline assembly, a cooling water channel in the discharge unit assembly, and the cooling water return pipeline assembly are connected in sequence, to cool the discharge unit assembly.2. The plasma ozone generator of claim 1 , further comprising:a front generator support assembly; anda rear generator support assembly,wherein the front generator support assembly and the rear generator support assembly are used to fix the discharge unit assembly, the high-voltage electrode bar assembly, the oxygen pipeline assembly, the ozone pipeline assembly, the cooling water inlet pipeline assembly, and the cooling water return pipeline assembly ...

Ozone Generator Methods for Retrofit of Enclosed and Air-Conditioned Environments

An ozone generator includes at least four independent ozone generation control channels that energize at least four independent ozone generation plates. The at least four independent ozone generation control channels allow for multiple modes of operation, including sterilization, disinfecting, and managing, in addition to interleaved operation, which significantly extends the useful life of the individual ozone generation plates. The ozone generator is placed in a preexisting conditioned airflow that enters a conditioned airspace enclosed by a container. Being placed in the preexisting conditioned airflow, the ozone generator does not require a fan or other air movement device to actively transport ozone-enriched air or oxygen through the ozone generator. 1. A method of operating a conditioned airflow ozone generator in an enclosed airspace in a previously existing conditioned airflow to extend produce and other foods shelf-life after shipment , the method comprising:sterilizing an enclosed airspace lacking produce and other foods with a conditioned airflow ozone generator placed in a previously existing conditioned airflow within the enclosed airspace, where the enclosed airspace maintains from 4 to 8 ppm ozone for a time period from 10 to 20 minutes;disinfecting produce and other foods within the enclosed airspace with the conditioned airflow ozone generator placed in the previously existing conditioned airflow, where the enclosed airspace maintains from 2 to 3.9 ppm ozone for a time period from 15 minutes to 2 hours; andmanaging the produce and other foods within the enclosed airspace with the conditioned airflow ozone generator during transport of the produce and other foods, where the enclosed airspace maintains from 0.5 to 1.5 ppm ozone for a time period after termination of the disinfecting.2. The method of claim 1 , where the sterilizing the enclosed airspace includes operating at least four ozone generation control channels to energize at least four ozone ...

AIR PURIFIER

An air purifier () includes a housing () formed with an air duct (), an ozone generation device (), an activated carbon purification unit (), and a fan () arranged in the air duct (). The air duct () includes an air inlet () and an air outlet (). The air outlet () is disposed indoors. The ozone generation device () and the activated carbon purification unit () are arranged in the air duct () along the direction of the air inlet to the air outlet (), and the ozone generation device () is used to generate ozone. The fan () is used to suck gas from the air inlet () during operation and let the gas pass through the ozone generation device () and the activated carbon purification unit () to be discharged from the air outlet () into the room. 1. An air purifier , comprising:a housing formed with an air duct, the air duct comprising an air inlet and an air outlet, and the air outlet is disposed indoors;an ozone generation device and an activated carbon purification unit, the ozone generation device and the activated carbon purification unit being provided in the air duct along a direction from the air inlet to the air outlet, the ozone generation device for generating ozone; anda fan provided in the air duct, the fan is configured for sucking air from the air inlet during operation and allowing the air to pass through the ozone generation device and the activated carbon purification unit to be discharged from the air outlet into a room.2. The air purifier according to claim 1 , wherein an exhaust direction of the air outlet is directed upward; orthe exhaust direction of the air outlet is toward a side that the air purifier is located; orthe purified gas is discharged into a cupboard by the air outlet.3. The air purifier according to claim 1 , wherein a kitchen ventilator comprises an air purification module disposed above the fan claim 1 , the air purification module comprises a purification housing claim 1 , the ozone generation device claim 1 , and the activated carbon ...

PORTABLE OZONIZING DEVICE

An ozonizing device comprises a box-shaped body which encloses therein ventilation device, a discharge ozone generator, an ozone-catalysing UV-C lamp and an additional ozone generator. The box-shaped body comprises a partition wall intended to define two distinct chambers in said box-shaped body: a first chamber in which the ventilation device, the discharge ozone generator and the ozone-catalysing UV-C lamp are housed, and a second chamber in which the further ozone generator is housed which is interfaced with air distribution device associated with a diffuser tube for the diffusion of an ozone-enriched air flow. The ozonizing device further comprises a control unit configured so as to selectively activate, alone or in combination, each of the discharge ozone generator, ozone-catalysing UV-C lamp and the additional ozone generator. 1. An ozonizing device comprising a box-shaped body which encloses therein a ventilation device , a discharge ozone generator , an ozone-catalysing UV-C lamp for destroying ozone , and an additional ozone generator , the box-shaped body including a partition wall which is intended to define two different chambers in the box-shaped body , a first chamber in which the ventilation device , the discharge ozone generator and the ozone-catalysing UV-C lamp are received and a second chamber , in which the additional ozone generator is received , said additional ozone generator being interfaced with air distribution device which is associated with a diffuser tube for diffusing an air flow which is enriched with ozone outside said ozonizing device by said diffuser tube , said first chamber being configured in such a manner that an air flow through said box-shaped body is defined , the ozonizing device further comprising a control unit which is configured so as to selectively activate , alone or in combination , each of said discharge ozone generator , ozone-catalysing UV-C lamp and additional ozone generator.2. The ozonizing device according to ...

Ozone generator

There is provided a generator (1) for forming ozone from air. The generator is adapted to be connected to a power source and comprises a unitary grid assembly (see Figs. 2 and 3) which includes a first dielectric plate (32), a second dielectric plate (34) spaced apart from the first dielectric plate (32), a wire mesh anode (42) located between the first and the second dielectric plates (32 and 34), a third dielectric plate (36) spaced from the second dielectric plate (34), a cathode plate (44) located between the second and the third dielectric plates (34 and 36), and a pair of dielectric spacers (38 and 40) located between the second dielectric plate (34) and the cathode plate (44). The second dielectric plate (34), the pair of spacers (34), the pair of spacers (38 and 40), and the cathode (44) define a space (50) for the passage of air and the collection of ozone formed from the air. The generator also comprises a blower (10) positioned spaced from but adjacent the grid assembly, for moving the air through the space (50).

Ozoniser and method for producing ozone from oxygen

The present invention relates to an ozoniser comprising a first and a second electrode between which a first dielectric is arranged, wherein between the first dielectric and the first electrode, a gas channel is arranged, through which an oxygen-containing gas can be conveyed, wherein a first cooling-fluid channel is provided, the wall of which is formed at least in sections by the first dielectric or the second electrode. In order to provide an ozoniser that can realize an increased ozone yield compared to the known devices, it is proposed according to the invention that the cooling-fluid channel is filled with a porous material.

A small-sized efficient ozone generator

본 발명은 판형상의 줄홈형 방전실을 설치하여 소형으로 고효율을 달성할 수 있게 하는 소형 고효율 오존발생장치에 관한 것으로서, 본 발명의 소형 고효율 오존발생장치는, 공기중의 산소가 산화되어 오존이 발생되도록 방전이 일어나는 방전실 및 상기 방전실에 고전압펄스를 인가하는 펄스발생기를 구비하여 이루어지는 오존발생장치를 구성함에 있어, 상기 방전실은, 수평으로 눕혀지고, 외부의 전선을 따라 고전압펄스가 인가되는 얇은 판상의 고전압전극과, 상판과 하판으로 이루어지고, 상기 고전압전극의 상면과 하면에 각각 위치하여 상기 고전압전극과 밀착되는 얇은 판상의 세라믹절연판 및 상기 방전실의 외관을 이루도록 상판과 하판으로 이루어지고, 상기 세라믹절연판을 둘러싸는 형상으로 밀봉 조립되며, 일측에 공기인입구와 타측에 공기배출구가 형성되고, 상기 공기인입구를 통과한 공기가 상기 공기배출구로 배출되도록 내면에 상기 세라믹절연판과 접촉하는 공기통로가 형성되며, 외부의 전선에 접지되는 판형상의 외장보조접지전극을 포함하여 이루어지는 것을 특징으로 하기 때문에 제품의 부피를 줄여 소형화할 수 있고, 설치 및 사용을 용이하게 하며, 제품의 제작비용을 절감할 수 있게 하고, 방전이 쉽게 일어나서, 자연공냉식으로도 충분히 냉각할 수 있고, 에너지 효율을 높게 하며, 작동이 매우 안정되고, 제품의 내구성을 향상시키게 하는 효과를 갖는다. The present invention relates to a small high-efficiency ozone generator for installing a plate-shaped row groove discharge chamber to achieve high efficiency with a small size. The small high-efficiency ozone generator of the present invention generates oxygen by oxidizing oxygen in air. In constructing an ozone generator comprising a discharge chamber in which discharge is generated and a pulse generator for applying a high voltage pulse to the discharge chamber, the discharge chamber is horizontally laid down, and the thin chamber in which the high voltage pulse is applied along an external wire is applied. It consists of a plate-shaped high voltage electrode, an upper plate and a lower plate, the upper plate and the lower plate so as to form an appearance of the thin plate-shaped ceramic insulating plate and the discharge chamber in close contact with the high voltage electrode, respectively located on the upper and lower surfaces of the high voltage electrode, Sealed and assembled in a shape surrounding the ceramic insulating plate, the air inlet on one side and the other side An air outlet is formed, and an air passage is formed on the inner surface to contact the ceramic insulating plate so that air passing through the air inlet is discharged to the air outlet, and includes a plate-shaped ...

Ozone development apparaus

본 발명은 오존발생장치에 관한 것으로서, 특히 공진회로를 이용하여 고주파를 방전함으로써, 내부전극의 내식성과 방열 효과를 향상시키는 오존발생장치에 관한 것으로, 외부 전원으로부터 인가된 전압을 공진회로를 사용하여 고전압 임펄스파를 발생시키는 전자회로부와, 상기 전자회로부에서 인가하는 고전압 임펄스파를 이용하여 내부로 유입되는 공기를 방전하여 오존을 생성하는 방전실과; 상기 전자회로부와 방전실의 사이에 위치하여 특정온도 이상이 되면 상기 방전실로 인가되는 고전압 임펄스파를 차단시키는 동작을 수행하는 동작감지수단으로 구성한 장치를 제공함으로써, 임펄스파를 방전실에 인가하여 소비전력을 최소화하면서 한 쌍의 고전압 전극판과 접지된 방전실 벽 사이에 다수의 번개가 형성되어 방전이 일어나게 하여, 오존 생성율을 높이는 효과와; 방전실의 구조가 평판형으로 이루어져 소형화가 용이하고, 고전압 전극의 외부 표면적이 넓어서 오존 발생율을 높이며, 자연 공냉에 의한 열방산이 용이하여 부피가 큰 별도의 냉각장치가 필요하지 않아 소형화가 가능한 등의 효과가 있다. The present invention relates to an ozone generator, and more particularly, to an ozone generator for improving the corrosion resistance and heat dissipation effect of an internal electrode by discharging high frequency by using a resonance circuit. An electronic circuit unit for generating a high voltage impulse wave, and a discharge chamber for generating ozone by discharging air introduced therein by using the high voltage impulse wave applied by the electronic circuit unit; It is located between the electronic circuit unit and the discharge chamber and provided with a device consisting of the operation sensing means for performing the operation to block the high voltage impulse wave applied to the discharge chamber when the temperature is above a certain temperature, by applying the impulse wave to the discharge chamber A plurality of lightning is formed between the pair of high voltage electrode plates and the grounded discharge chamber wall while minimizing the electric power to cause discharge, thereby increasing the ozone generation rate; The structure of the discharge chamber is flat, making it easy to miniaturize, and the external surface area of the high voltage electrode is wide, which increases the ozone generation rate, and the heat dissipation by natural air cooling is easy. It works.

Apparatus for generating ozone in high concentration

본 발명은 고농도 및 고효율로 오존을 발생시키며 오존 발생 농도를 선형적으로 조절할 수 있는 고농도 오존 발생 장치에 관한 것이다. 고농도 오존 발생 장치는 산소 발생기, 평판형 오존 발생기, 고전압 트랜스 포머, 고주파 인버터, 냉각수 공급기, 제어 신호 발생기를 포함하고 있다. 고주파 인버터는 제어 신호 발생기로부터 입력되는 제어 신호의 전압에 대응하는 사전설정된 온-오프(on-off) 시간 간격에 따라 발생된 고주파 고전압 펄스를 고전압 트랜스포머를 통해 평판형 오존 발생기에 인가함으로써 발생되는 오존 농도를 선형적으로 조절한다. 평판형 오존 발생기는 고유전율을 갖는 평판형 세라믹을 절연체로 이용한 구조이므로 내구성이 높을 뿐만 아니라 소형으로 제작될 수 있다. The present invention relates to a high concentration ozone generating device capable of generating ozone at high concentration and high efficiency and linearly adjusting the ozone generating concentration. The high concentration ozone generator includes an oxygen generator, a flat ozone generator, a high voltage transformer, a high frequency inverter, a cooling water supply, and a control signal generator. The high frequency inverter generates ozone by applying a high frequency high voltage pulse generated at a predetermined on-off time interval corresponding to the voltage of the control signal input from the control signal generator to the flat plate ozone generator through the high voltage transformer. Adjust the concentration linearly. The flat plate type ozone generator has a structure having a high dielectric constant and a flat plate type ceramic as an insulator, so that the plate type ozone generator is not only high in durability but also small in size.

오존발생장치

본 발명은 오존발생장치에 관한 것으로서, 특히 공진회로를 이용하여 고주파를 방전함으로써, 내부전극의 내식성과 방열 효과를 향상시키는 오존발생장치에 관한 것으로, 외부 전원으로부터 인가된 전압을 공진회로를 사용하여 고전압 임펄스파를 발생시키는 전자회로부와, 상기 전자회로부에서 인가하는 고전압 임펄스파를 이용하여 내부로 유입되는 공기를 방전하여 오존을 생성하는 방전실과; 상기 전자회로부와 방전실의 사이에 위치하여 특정온도 이상이 되면 상기 방전실로 인가되는 고전압 임펄스파를 차단시키는 동작을 수행하는 동작감지수단으로 구성한 장치를 제공함으로써, 임펄스파를 방전실에 인가하여 소비전력을 최소화하면서 한 쌍의 고전압 전극판과 접지된 방전실 벽 사이에 다수의 번개가 형성되어 방전이 일어나게 하여, 오존 생성율을 높이는 효과와; 방전실의 구조가 평판형으로 이루어져 소형화가 용이하고, 고전압 전극의 외부 표면적이 넓어서 오존 발생율을 높이며, 자연 공냉에 의한 열방산이 용이하여 부피가 큰 별도의 냉각장치가 필요하지 않아 소형화가 가능한 등의 효과가 있다.

Ozone generator

Ozone generator

Silent discharge type plasma device

在本发明的无声放电式等离子体产生装置包括电介体、夹着电介体而相对地配置的1组电极、向电极之间施加交流电压而使其放电的交流电源，向产生放电的放电空间供给气体而形成等离子体。电极的至少一个由形成在电介体上的导电性供电薄膜构成，在电介体破损而在电极之间产生了电弧放电的情况下，使产生了电弧放电的部分的供电薄膜消失或氧化，使得停止产生电弧放电。

Ozone generator

FIELD: treatment of gas flow by electric discharge for production of ozone-air or ozone-oxygen mixture. SUBSTANCE: ozone generator has electrode plates with terminals positioned one opposite to other with formation of discharge gap between them hermetically isolated from electrodes by dielectric plates. Electrode plates are located on external surfaces of dielectric plates which are placed at some fixed distance one from another with the aid of insert which geometric dimension corresponds to this distance. Electrode plate can be pressed against dielectric plates by means of spring-loaded fixtures. EFFECT: enhanced operational efficiency. 1 cl, 1 dwg СсссСоОтс ПЧ ГЭ РОССИЙСКОЕ АГЕНТСТВО ПО ПАТЕНТАМ И ТОВАРНЫМ ЗНАКАМ (19) (51) МПК ВИ” 2102 312‘ 13) Сл С 01 В 13/11 12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ РОССИЙСКОЙ ФЕДЕРАЦИИ (21), (22) Заявка: 96106937/25, 08.04.1996 (46) Дата публикации: 20.01.1998 (56) Ссылки: 1. 45, патент, 3801791, кл. С 01 В ЗАЛ, 1976. 2. ЗидитЁзи На@оз её а1. Спептса! геаспоп т Нет еес пс Ч!зсрагдае |. Те теспап!зт о! охопе ТогиаНоп "Ви|.СПпет.Зос.4ар". - 1970, 43, М 7, р.1921 - 1933. (72) (71) Заявитель: Захаров Александр Леонидович, Колобков Вадим Петрович, Суворов Анатолий Николаевич, Поляков Петр Алексеевич Николаевич, Поляков Петр Алексеевич (73) Патентообладатель: Захаров Александр Леонидович, Колобков Вадим Петрович, Суворов Анатолий Николаевич, Поляков Петр Алексеевич Изобретатель: Захаров Александр Леонидович, Колобков Вадим Петрович, Суворов Анатолий (54) ГЕНЕРАТОР ОЗОНА (57) Реферат: Использование: обработка потока газа электрическим разрядом для получения озоно-воздушной или озоно-кислородной смеси. Генератор озона содержит электродные пластины С клеммами установленные напротив друг друга с образованием между ними разрядного промежутка, герметично изолированного от электродов диэлектрическими пластинами, причем электродные пластины расположены на наружных поверхностях диэлектрических пластин, которые установлены на зафиксированном друг от ...

Ozonizer having a display unit

PURPOSE: To provide an ozonizer having display function by patterning electrodes such that the contour of prescribed patterns is formed on the electrodes or coating a fluorescent substance on an expected area of the electrodes while using structure of a creeping electric discharge type ozonizer as it is. CONSTITUTION: The ozonizer having display function comprises a main dielectric(12); a first electrode(13) formed at one side of the main dielectric; and a second electrode(14) formed at the other side of the main dielectric, wherein ozone is generated by impressing a power supply to the first electrode and the second electrode, thereby generating a corona creeping electric discharge, one or more of the first electrode and the second electrode are patterned in such a way that the contour of the electrodes has prescribed patterns to have the patterns light emitted and displayed to the outside during corona creeping electric discharge, and wherein a fluorescent substance layer is formed on a layer on which the patterned electrodes are formed so that influence of ultraviolet rays generated by the corona creeping electric discharge stimulate the fluorescent substance to display fluorescent substance patterns(18) to the outside.

Ozone generator with depending on location discharge distribution

Изобретение относится к генератору озона и может быть использовано для дезинфекции воды или для отбеливания древесины, целлюлозы или пульпы для производства бумаги. Генератор озона содержит высоковольтный электрод (5) и по меньшей мере один контрэлектрод (1), ограничивающие промежуточное пространство, в котором установлен по меньшей мере один диэлектрик (2) и сквозь которое проходит газ в направлении спрямленного потока. Высоковольтный электрод (5) и по меньшей мере один контрэлектрод (1) имеют подключение электропитания (7) для производства тихих разрядов, исходящих из поверхностных точек. Центральное расстояние между высоковольтным электродом (5) и по меньшей мере одним контрэлектродом (1) и центральное разрядное расстояние неизменны. Количество поверхностных точек, из которых исходят тихие разряды, снижается в направлении спрямленного потока. Технический результат: повышение производительности за счет снижения электрической мощности, подаваемой в направлении газового потока на единицу поверхности электрода, причем генератор озона имеет максимально простую и экономичную конструкцию. 2 н. и 6 з.п. ф-лы, 2 ил. РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 663 744 C1 (51) МПК C01B 13/11 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК C01B 13/11 (2018.05); B01J 19/088 (2018.05); C02F 1/78 (2018.05); C01B 2201/14 (2018.05); C01B 2201/22 (2018.05); C01B 2201/64 (2018.05); C01B 2201/70 (2018.05) (21)(22) Заявка: 2017132079, 15.01.2016 15.01.2016 Дата регистрации: 09.08.2018 23.02.2015 DE 10 2015 002 102.8 (56) Список документов, цитированных в отчете о поиске: WO 9214677 A1, 03.09.1992. RU (45) Опубликовано: 09.08.2018 Бюл. № 22 94042390 A1, 27.07.1996. RU 2346886 C2, 20.02.2009. WO 9709268 A1, 13.03.1997. US 5554345 A1, 10.09.1996. US 5945072 A, 31.08.1999. (85) Дата начала рассмотрения заявки PCT на национальной фазе: 13.09.2017 (86) Заявка PCT: 2 6 6 3 7 4 4 (73) Патентообладатель(и): КСИЛЕМ АЙ ПИ МЕНЕДЖМЕНТ С.А Р ...

Ozonizer apparatus employing a multi-compartment bag for sterilizing

A sealed multi-chambered bag, that is a flexible container, is made of dielectric material and contains two electrode plates (preferably screen plates) that are separated by an internal wall of the bag. Materials to be sterilized are placed between one or the other or both of the electrode plates and the interior wall. The interior wall allows the plates to be contained within the bag without the risk of damaging high voltage discharges occurring between plates optimal ozone production occurs in the bag immediately adjacent to where the materials to be sterilized are located. The bag is placed within a chamber containing an aperture which is connected to the intake of a pump. A conductor connects each electrode plate to an opposed terminal of a high tension transformer. Both the pump and the transformer are connected to timing circuitry, which turns on the pump and the transformer and, then periodically turns the pump off and on to deflate and re-inflate the chambered bag and circulates the ozone produced therein to all virulence on the materials being sterilized. The gas within the bag alternatively expands and compresses before the transformer is turned off. The timer circuit allows the pump to continue to cycle on and off thereafter (preferably at an increased cycling rate) until the ozone off gas remaining in the bag is destroyed by molecular collision, surface reactions or otherwise.

Ozone generator

本发明提供了一种能够以较少的电能消耗产生臭氧的小且轻的臭氧发生装置。本发明包括用于产生高压脉冲的脉冲发生器和用于响应高压脉冲而诱发放电的放电室。脉冲发生器包括用于压缩方波信号而产生脉冲的LC电路。脉冲的使用极大地减小了电能消耗和臭氧发生装置的体积。放电在电极板和接地的放电室壁之间发生。一层氧化物绝缘材料覆盖放电室壁，以防止放电室壁腐蚀。

Electro-kinetic air transporter-conditioner

An electro-kinetic electro-static air conditioner includes a self-contained ion generator that provides electro-kinetically moved air with ions and safe amounts of ozone. The ion generator includes a high voltage pulse generator whose output pulses are coupled between first and second electrode arrays. Preferably the first array comprises one or more wire electrodes spaced staggeringly apart from a second array comprising hollow “U”-shaped electrodes. Preferably a ratio between effective area of an electrode in the second array compared to effective area of an electrode in the first array exceeds about 15:1 and preferably is about 20:1. An electric field produced by the high voltage pulses between the arrays produces an electrostatic flow of ionized air containing safe amounts of ozone. A bias electrode, electrically coupled to the second array electrodes, affects net polarity of ions generated. The outflow of ionized air and ozone is thus conditioned.

Air treatment apparatus having multiple downstream electrodes

An electro-kinetic air conditioner for removing particulates from the air creates an airflow using no moving parts. The conditioner includes an ion generator that has an electrode assembly including a first array of emitter electrodes, a second array of collector electrodes, and a high voltage generator. Preferably, a third or leading or focus electrode is located upstream of the first array of emitter electrodes, and/or a trailing electrode is located downstream of the second array of collector electrodes. The device can also include an interstitial electrode located between collector electrodes, an enhanced collector electrode with an integrally formed trailing end, and an enhanced emitter electrode with an enhanced length in order to increase emissivity.

Electro-kinetic air transporter and conditioner device with enhanced maintenance features and enhanced anti-microorganism capability

An electro-kinetic air conditioner for removing particulates from the air creates an airflow using no moving parts. The airflow is subjected to UV radiation from a germicidal lamp within the device. The conditioner includes an ion generator that has an electrode assembly including a first array of emitter electrodes, a second array of collector electrodes, and a high voltage generator. The device can also include a third or leading or focus electrode located upstream of the first array of emitter electrodes, and/or a trailing electrode located downstream of the second array of collector electrodes, and/or an interstitial electrode located between collector electrodes, and/or an enhanced emitter electrode with an enhanced length in order to increase emissivity.

Air conditioner device with removable driver electrodes

Embodiments of the present invention are directed to a method and apparatus for moving air using an air-conditioning system therein, whereby the air-conditioning system preferably includes at least one emitter electrode, at least one collector electrode, at least one driver electrode disposed adjacent to the collector electrode, and/or at least one trailing electrode positioned downstream of the collector electrode. The collector electrode and the driver electrode are removable from the device. In one embodiment, the driver electrodes are removable from the device and/or the collector electrode. The ability of remove the collector electrode as well as driver electrode allow for easy cleaning of the electrodes. In one embodiment, the present device includes a removable exhaust grill upon which the driver electrode and/or the trailing electrode are coupled to. The removable grill allows the user to easily clean the driver electrode without having to remove the collector electrode.

Ozone generator with position-dependent discharge distribution

An ozone generator includes a high-voltage electrode and at least one counter electrode, which define an interstice in which at least one dielectric is arranged and through which a gas flows in the flow direction, the high-voltage electrode and the at least one counter electrode being provided with a connection for an electrical voltage supply to generate silent discharges, and a wire fabric being arranged in the gas flow and its density decreasing in the flow direction.

Apparatus for the production and use of ozone

Ozone generator

Elec appts for ozone prodn

Generally as disclosed in BE-609173 in which one metal plate electrode is placed between a pair of insulating dielectric plates, e.g. mica, sealed together round the whole periphery, the resultant assembly being placed between, but spaced from a pair of perforated electrodes so that air can be circulated through the electric field set up between the inner electrode and the outer perforated electrodes, and incorporates protective devices giving greater electrical safety, increased ozone yield and longer length of life.

Corona generator for ozone, prodn

A corona generator, esp for producing ozone, comprises a pair of electrodes spaced apart with an airtight corona discharge chamber between them; at least one, typically a large number of cells constituted in this way are surrounded by an insulating liquid inside a sealed chamber so that the liquid is in thermal exchange contact with the outer faces of the electrodes; the liquid is continuously circulated through a cooler in an external circuit and also serves for insulating the adjacent edges of the electrodes.

Ozone generator device

Patent FR2241152A1

Device for the production of ozone

Advanced ozonator

Ozone Generator

A corona discharge ozone generator has an inter-electrode gap established by dielectric spacers that engage gap confronting surfaces and are distributed in the gap so that the electrodes need not be self-supporting. Also, gas flow impedance material, which can include the gap spacers, is distributed in the gap to ensure substantially uniform flow of an oxygen containing gas.

Improvements in ozonators

OZONE GENERATING UNIT AND OZONE GENERATING MODULE FOR AIR CONDITIONING SYSTEM OF A MOTOR VEHICLE

Electrode self-cleaning mechanism for electro-kinetic air transporter-conditioner devices

An air conditioner device includes a first electrode array and a second electrode array. A mechanism, that cleans the electrode(s) in a first electrode array, includes a length of flexible insulating material that projects from a base of the second electrode array towards the first electrode array. As a user moves the second electrode array up or down within the conditioner housing, the electrode(s) in the first array are frictionally cleaned.

Ozone generator

Ozone generator

An ozone generator (10A) in which each dielectric (30) has a plurality of lines of corona discharges on each side; turbulent flow increases the ozone-forming dwell time within the generator; and back pressure, resulting from the turbulent flow, increases the pressure concentration of gas exposed to the coronas. The generator comprises a plurality of ozone generating cells comprising interleaved electrodes and dielectrics having passageways therebetween for receiving gas containing oxygen. In each ozone generating cell, corrugated electrodes (20, 40) have mirrored crests equally spaced from a dielectric so as to form uniform gaps at the crests through which the received gas must flow.

DEVICE FOR GENERATING OZONE

A method and device for producing ozone

Ozone is produced in that oxygene is subjected to a high frequency alternating current with high voltage over a dielectricum. Oxygen is admitted to a narrow space between two plates (2) of aluminum oxide, and the current is applied to an electrode net (3) in the space, whereas the opposite sides of the plates are earthed and cooled.

Ozone generator with depending on location discharge distribution

FIELD: physics.SUBSTANCE: group of inventions refers to an ozone generator with high-voltage electrode (5) and at least one counter electrode (1), a flat-shaped wire article and a high voltage electrode arrangement. Ozone generator with high voltage electrode (5) and at least one counterelectrode (1) defining a space between them in which at least dielectric (2) is mounted and through which gas flows in the direction of the straightened flow. High-voltage electrode (5) and at least one counter-electrode (1) have power supply connection (7) for producing quiet discharges. In the gas flow a flat piece of wire is installed, the density of which decreases in the direction of the straightened flow.EFFECT: technical result achieved with the use of a group of inventions consists in creating an ozone generator with increased capacity by reducing the electric power supplied in the direction of the gas flow per unit surface of the electrode.15 cl, 2 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 670 932 C1 (51) МПК C01B 13/11 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ (52) СПК C01B 13/11 (2018.05); B01J 19/088 (2018.05); C01B 2201/14 (2018.05); C01B 2201/22 (2018.05); C01B 2201/64 (2018.05); C01B 2201/70 (2018.05); C02F 1/78 (2018.05) (21)(22) Заявка: 2017131922, 15.01.2016 15.01.2016 Дата регистрации: 25.10.2018 23.02.2015 DE 10 2015 002 103.6 (56) Список документов, цитированных в отчете о поиске: WO 9214677 A1, 03.09.1992. RU (45) Опубликовано: 25.10.2018 Бюл. № 30 94042390 A1, 27.07.1996. RU 2346886 C2, 20.02.2009. WO 9709268 A1, 13.03.1997. US 5554345 A1, 10.09.1996. US 5945072 A, 31.08.1999. (85) Дата начала рассмотрения заявки PCT на национальной фазе: 13.09.2017 (86) Заявка PCT: 2 6 7 0 9 3 2 (73) Патентообладатель(и): КСИЛЕМ АЙ ПИ МЕНЕДЖМЕНТ С.А Р.Л. (LU) Приоритет(ы): (30) Конвенционный приоритет: R U (24) Дата начала отсчета срока действия патента: (72) Автор(ы): ФИКЕНС Ральф (DE), ФИТЦЕК Райнер (DE), ...

Method and apparatus for ozone generation and treatment of water

ozonizer of corona discharge type

본 발명은 코로나 방전식 오존발생장치에 관한 것이다. 구체적으로는 플레이트의 양면에 다수의 돌기(211)가 형성되고 이 돌기의 사이에 다수의 제1구멍(212)이 형성되어 방전이 개시되는 다수의 제1전극판(200)과, 상기 제1전극판의 양측에 소정의 간격으로 이격되게 설치되고 상기 돌기(211)의 대응 위치에 제2구멍(312)이 형성되어 상기 돌기와 제2구멍 사이에서 코로나 방전이 일어나 플라즈마가 형성되게 하는 다수의 제2전극판(300)과, 상기 다수의 제1전극판(200)에 전압을 인가하도록 다수의 제1전극판을 연결하는 제1전극연결봉(250)과, 상기 다수의 제2전극판(300)에 전압을 인가하도록 다수의 제2전극판을 연결하는 제2전극연결봉(350)과, 상기 제1전극판과 제2전극판을 수용하여 기체가 상기 제1구멍과 제2구멍을 교대로 통과하여 흐르게 하는 하우징(100)을 포함하는 구성으로 되어 있다. 이러한 구성에 의하면, 제1전극판의 돌기에서 제2전극판의 구멍사이에 고전압을 인가하면 낮은 전류상태에서도 쉽게 플라즈마가 형성되므로 기존의 코로나 방전에 의한 방법에 비해 낮은 에너지의 사용에 의해서도 쉽게 상온플라즈마를 형성할 수 있고, 낮은 전류의 사용으로 오존발생기의 온도가 상승되지 않아 별도의 냉각수단이 불필요하며, 주입되는 산소기체가 여러 개의 반응단의 플라즈마 영역을 통과함으로써 산소기체와 플라즈마 형성 영역과의 접촉시간이 길어져 오존발생효율을 높일 수 있다. 또한 전극판의 수를 용이하게 변경할 수 있어 오존 생성량을 용이하게 변경할 수 있을 뿐만 아니라 전극을 용이하게 교체할 수 있어 고농도의 오존을 얻을 수 있다. The present invention relates to a corona discharge ozone generating device. Specifically, a plurality of protrusions 211 are formed on both sides of the plate, and a plurality of first holes 212 are formed between the protrusions, and the plurality of first electrode plates 200 at which discharge is initiated, and the first A plurality of agents are provided on both sides of the electrode plate to be spaced apart at predetermined intervals, and a second hole 312 is formed at a corresponding position of the protrusion 211 to form a corona discharge between the protrusion and the second hole to form a plasma. A second electrode plate 300, a first electrode connecting rod 250 connecting the plurality of first electrode plates to apply a voltage to the plurality of first electrode plates 200, and the plurality of second electrode plates 300. A second electrode connecting rod 350 connecting the plurality of second electrode plates to apply a voltage to the first electrode plate; and the first electrode plate and the second electrode plate, and the gas alternately alternates between the first and second holes. It consists of the structure containing the housing | casing 100 ...

Ozone generator

Ozonizing unit, ozone generator and ozone-processing system

A pair of electrodes (1a, 1b) are formed on one surface of a dielectric substrate (2) . A dielectric layer (18) is formed on the surface of the dielectric substrate (2) so as to cover the pair of electrodes (1a, 1b). The pair of electrodes (1a, 1b) have linear electrode elements, respectively. The respective linear electrode elements are arrange at equal intervals.

Patent FR2241152B1

Modular ozone generator system

An ozone generator system (1) in which a multitude of plate type ozone generators (2) are arranged adjacent to each other in a block (3). Each ozone generator comprises a chamber, adapted for converting oxygen to ozone by a corona discharge, and each chamber is provided with an inlet for oxygen or an oxygen-rich gas and an outlet for ozone. Said ozone generators are arranged in a block module (26) in which they are affixed by a block rack (4). Said block rack comprises an inlet port (5) adapted for introduction of oxygen gas, and an outlet port (6) adapted for discharge of ozone created through conversion within the generators comprised in the block module. A multitude of first conduits (7), each running between said inlet port and one chamber inlet, and a multitude of second conduits (8), each running between said outlet port and one chamber outlet, are provided within said block rack. Said conduits are arranged so that the flow distance between the inlet and outlet ports has the same length, regardless of which generator the introduced gas passes through, thereby achieving an even gas pressure and gas flow, through parallel connection of the generators.

Patent JPS4965396A

Electrode self-cleaning mechanism for electro-kinetic air transporter-conditioner devices

提出了一种电动静电式空气传送－调节机(100),其具有一用于清理第一电极阵列(230)中的线状电极(232)的装置。一段柔性聚酯薄膜片(500)从第二电极阵列(240)的基体向着第一电极阵列延伸,并超过第一电极阵列。每一薄片的末端上设有和相应线状电极(232)相接合的狭缝。当使用者在空气调节机壳体(102)内上下移动第二电极阵列(240)时,狭缝边和线状电极之间的摩擦可清理电极表面。材料薄片可枢轴转动地和偏置地连接在第二电极阵列(240)的基体(113)上,当使用空气调节机时,材料薄片可被推动到和线状电极(232)平行。另一实施例包括一具有通孔或通道的珠状件,线状电极(232)即从通孔中穿过。当空气调节机(100)被翻转成上部朝下下部朝上时,珠状件的通孔和线状电极(232)之间的摩擦可以清理电极的表面。

Ozonizer

An ozonizer in which a pair of plate-like electrode plates are arranged opposite to each other so as to form a discharge space therebetween, and ceramic dielectric layers are arranged on the surface on the side of the discharge spaces of said electrode plates, wherein a plate-like anode 4 is arranged between the dielectrics 31 and 32, extreme ends 41 and 42 having sharp extreme ends of a number of protrusions are formed on both surfaces of the anode 4, the anode 4 is arranged between the dielectrics 41 and 42 in a state where the extreme ends 41 and 42 are in contact with the surfaces of the dielectrics 31 and 32 on both sides, the anode 4 is formed with a number of through-holes extending through both surfaces, and the anode being formed of expanded metal.

Corona reaction system

A system for subjecting gas to high voltage corona wherein a gas is sequentially (serially) exposed to a plurality of corona generation zones. In a preferred system, the gas is conducted through several corona generators which are connected in series by gas conduits, and the gas within the system is cooled subsequent to each exposure to corona.

Ozonizer

The ozonizer of this present invention is small in size, and capable of generating highly concentrated ozone with a high (generating) efficiency. A low voltage electrode includes a disc-shaped low voltage electrode main body facing a high voltage electrode and an extension at one side of the low voltage electrode main body, and the extensions are laminated in layers on a base via blocks, and a coolant inlet portion for supplying coolant to a coolant passage, a coolant outlet portion for exhausting coolant from the coolant passage, and an ozone gas outlet portion for exhausting ozone gas from the ozone gas passage pass through the extensions and the blocks, respectively, in a laminating direction of the discharge cells.

Ozone generating system and operation method thereof

在进行使在放电电极部使含氧的气体放电而发生臭氧的臭氧发生运转期间、使放电停止而不发生臭氧的臭氧发生运转待机期间反复的间歇运转的臭氧发生系统中，使在臭氧发生运转待机期间一边使臭氧发生装置内的气体循环一边至少将该循环的气体中的硝酸除去的气体循环装置连接至臭氧发生装置。

Equipment for producing ozone

Ozone generating apparatus

An ozone generating apparatus comprises at least one ozone generating unit which includes: two electrode (2, 31) mutually opposed to generate a discharge in response to high voltage applied therebetween; at least one dielectric (4) interposed between the electrodes to provide

Ozone generator

Ozone generator and ozone generation method

Device for ozone synthesis

FIELD: electricity; manufacturing technology. SUBSTANCE: invention relates to equipment intended for use in production of ozone installations. Device consists of at least one electrode system including two, connected to AC power supply source, soldered plate-ribbed electrodes (PRE) and arranged therebetween with given value of discharge gap a middle PRE. Each of extreme PRE consists of two disc membranes, each with a central hole for output of synthesised ozone and flanging at outer and inner diameters to generate electric discharge within active zone of electrode, inner and outer spacer rings, and between spacer rings in inner cavity of electrode and having thermal contact with membrane of nozzle. Middle PRE consists of two disc membranes without a central hole and with flanging along outer diameter each, as well as having thermal contact with membrane of outer spacer ring and nozzle, arranged in inner cavity of electrode. Membranes of all said PRE are made from metal or alloy with valve properties. Function of dielectric barrier on electrodes on side facing discharge gap, is performed by, formed on their outer surfaces, a nanostructured oxide layer of metal or alloy with valve properties. EFFECT: higher efficiency, production of high and ultrahigh ozone concentration with minimum power consumption. 6 cl, 3 dwg, 2 tbl РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 600 475 C1 (51) МПК C01B 13/11 (2006.01) C25B 11/00 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) ОПИСАНИЕ (21)(22) Заявка: ИЗОБРЕТЕНИЯ К ПАТЕНТУ 2015128244/05, 14.07.2015 (24) Дата начала отсчета срока действия патента: 14.07.2015 (45) Опубликовано: 20.10.2016 Бюл. № 29 2 6 0 0 4 7 5 (56) Список документов, цитированных в отчете о поиске: RU 144205 U1, 10.08.2014. RU 2353574 C2, 27.04.2009. RU 2006116926 A, 10.12.2007. RU 2509180 C2, 10.03.2014. RU 2322386 C2, 20.04.2008. JP 2008031002 A, 14.02.2008. US 2008053840 A1, 06.03.2008. (73) Патентообладатель(и): Горбатский Юрий Васильевич (RU), ...

Ozone generator

The present invention provides an ozone generator such that ozone generation bulk density can be increased at low cost without the ozone generator having to be made more complex or larger. In this ozone generator (100), a discharge cell (50) comprises a first electrode part (1), a second electrode part (2, 3), and a dielectric partition plate (7). The first electrode part (1) and the second electrode part (2, 3) face each other, and the dielectric partition plate (7) is disposed between both the electrode parts.

Ozone generator with depending on location discharge distribution

FIELD: physics. SUBSTANCE: group of inventions refers to an ozone generator with high-voltage electrode (5) and at least one counter electrode (1), a flat-shaped wire article and a high voltage electrode arrangement. Ozone generator with high voltage electrode (5) and at least one counterelectrode (1) defining a space between them in which at least dielectric (2) is mounted and through which gas flows in the direction of the straightened flow. High-voltage electrode (5) and at least one counter-electrode (1) have power supply connection (7) for producing quiet discharges. In the gas flow a flat piece of wire is installed, the density of which decreases in the direction of the straightened flow. EFFECT: technical result achieved with the use of a group of inventions consists in creating an ozone generator with increased capacity by reducing the electric power supplied in the direction of the gas flow per unit surface of the electrode. 15 cl, 2 dwg РОССИЙСКАЯ ФЕДЕРАЦИЯ (19) RU (11) (13) 2 670 932 C9 (51) МПК C01B 13/11 (2006.01) ФЕДЕРАЛЬНАЯ СЛУЖБА ПО ИНТЕЛЛЕКТУАЛЬНОЙ СОБСТВЕННОСТИ (12) СКОРРЕКТИРОВАННОЕ ОПИСАНИЕ ИЗОБРЕТЕНИЯ К ПАТЕНТУ Примечание: библиография отражает состояние при переиздании (52) СПК C01B 13/11 (2018.05); B01J 19/088 (2018.05); C01B 2201/14 (2018.05); C01B 2201/22 (2018.05); C01B 2201/64 (2018.05); C01B 2201/70 (2018.05); C02F 1/78 (2018.05) (21)(22) Заявка: 2017131922, 15.01.2016 15.01.2016 (73) Патентообладатель(и): КСИЛЕМ АЙ ПИ МЕНЕДЖМЕНТ С.А Р.Л. (LU) 23.02.2015 DE 10 2015 002 103.6 (45) Опубликовано: 25.10.2018 (56) Список документов, цитированных в отчете о поиске: WO 9214677 A1, 03.09.1992. RU (15) Информация о коррекции: Версия коррекции №1 (W1 C1) 94042390 A1, 27.07.1996. RU 2346886 C2, 20.02.2009. WO 9709268 A1, 13.03.1997. US 5554345 A1, 10.09.1996. US 5945072 A, 31.08.1999. (48) Коррекция опубликована: (85) Дата начала рассмотрения заявки PCT на национальной фазе: 13.09.2017 C 9 C 9 13.12.2018 Бюл. № 35 (86) Заявка PCT: 2 6 7 0 9 3 2 EP ...

Improvements relating to air purification

Generator of multiple oxygen allotropes

Un generador de alótropos de oxigeno (101) que tiene un tubo (103) con una superficie eléctricamente conectada a un polo a tierra (104) y una superficie interior eléctricamente positiva (105). Una pluralidad de placas de reacción en cadena (116) están espaciadas a lo largo del interior del tubo, donde las placas están longitudinalmente interconectadas por alambres (17 , 118 , 121) y están en conexión eléctrica con la superficie interior del tubo eléctricamente positiva (109, 110). Una cubierta exterior (112) encierra el tubo y provee un segundo pase lineal para que el gas parcialmente ozonizado fluya en el generador. Una incorporación alternativa incluye conexiones de polo a tierra (108) externas distribuidas en las ubicaciones de la reacción de corona. An oxygen allotrope generator (101) having a tube (103) with a surface electrically connected to a grounded pole (104) and an electrically positive inner surface (105). A plurality of chain reaction plates (116) are spaced along the inside of the tube, where the plates are longitudinally interconnected by wires (17, 118, 121) and are in electrical connection with the inner surface of the electrically positive tube ( 109, 110). An outer cover (112) encloses the tube and provides a second linear pass for partially ozonized gas to flow into the generator. An alternative incorporation includes external pole-to-ground connections (108) distributed at the crown reaction locations.

CORONA DISCHARGE REACTION SYSTEM AND METHOD FOR CARRYING OUT REACTIONS BY CORONA DISCHARGE

Ozone generator

Apparatus for converting oxygen to ozone

Ozone generating apparatus

An ozone generating apparatus is provided, which comprises an ozone generating unit including tow electrodes (2, 31) mutually opposed to generate discharge in response to high voltage applied therebetween, a dielectric (4) interposed between the electrodes and a gas supply mechanism to supply an oxygen-rich gas between the electrodes (2, 31) so as to generate ozone by the discharge. The discharge space (5) has a gas pressure of 101325 Pa (1 atm) or more and a discharge gap length of 0,4 mm or less. Further the product of the gas pressure and the discharge gap length is about 4000 Pa · cm (30 Torr · cm) or less.

Ozonizer

Ozone generating apparatus

本發明係提供一種裝置不會複雜化及大型化且能夠以低成本使臭氧產生容積密度進一步增加的臭氧產生裝置。因此，在本發明的臭氧產生裝置(100)中，放電單元(50)係具有第一電極部(1)、第二電極部(2、3)、及介電質隔板(7)。第一電極部(1)與第二電極部(2、3)係相對向，介電質隔板(7)配設在兩電極部之間。

Ozone generator

Ozone generator

In an ozonizer for producing ozone by supplying an oxygen gas to a discharge between two electrodes which are disposed across a predetermined gap on the two sides of a dielectric sheet, the ozone producing efficiency is improved the better for the narrower gap. However, the heat generation of the electrodes lowers the efficiency, so that a cooling passage 23 has to be disposed in the electrodes to cool them with water. As a result, the electrodes are liable to be deformed by the water pressure or the heat. On the other hand, the dielectric sheet 4 is liable to warp or crack so that an extremely narrow gap cannot be realized. In the surface of the electrode, there is formed a first recess 600, in which a spacer 601 and gap adjusting sheets 603 are fitted so that the gap can be adjusted according to the number of the gap adjusting sheets.

Ozone generator

An ozone gas generator apparatus comprising a plurality of electrodes and a plurality of dielectric plates arranged in alternating sequence to form a stack; a plurality of seals interposed between said electrode and said dielectric material plate and adapted to seal said apparatus and maintain the correct distance between said electrodes and said dielectric slab; fastening means adapted to secure said electrode and said dielectric slabs to one another and appropriate cooling means of said electrodes.

Ozone generator

本發明係關於臭氧產生器單元，其等包含在無接合劑的情況下維持該等單元之不同層之間之接觸之兩個導熱板。該等單元在該單元之放電區域中無含鋁材料。