公开(公告)号：US20130291718A1

公开(公告)日：2013-11-07

申请号：US13856126

申请日：2013-04-03

Applicant: Yoichiro TABATA ,  Tetsuya SAITSU ,  Yujiro OKIHARA ,  Nobuyuki ITOH ,  Ryohei UEDA ,  Yasuhiro TANIMURA ,  Koji OHTA

Inventor： Yoichiro TABATA ,  Tetsuya SAITSU ,  Yujiro OKIHARA ,  Nobuyuki ITOH ,  Ryohei UEDA ,  Yasuhiro TANIMURA ,  Koji OHTA

IPC: B01D53/00

CPC classification number: B01D53/002 ,  B01D2256/14 ,  C01B13/0251 ,  C01B13/10 ,  C01B13/11 ,  C01B2201/80 ,  C01B2201/82 ,  C01B2210/0092 ,  Y02C10/10 ,  Y02C10/12

Abstract: One ozone concentrating chamber is provided therein with a part of a cooling temperature range where ozone can be selectively condensed or an oxygen gas can be selectively removed by transmission from an ozonized oxygen gas, and a part of a temperature range where condensed ozone can be vaporized, and condensed ozone is vaporized by moving condensed ozone with flow of a fluid or by gravitation to the part where condensed ozone can be vaporized, whereby the ozonized oxygen gas can be increased in concentration. Such a constitution is provided that a particle material 13 for condensation and vaporization filled in the ozone concentrating chambers 11 and 12 has a spherical shape of a special shape with multifaceted planes on side surfaces, or an oxygen transmission membrane 130 capable of selectively transmitting an oxygen gas in an ozone gas is provided.

Abstract translation: 在其中设置一个臭氧浓缩室，其中一部分冷却温度范围可以选择性地冷凝臭氧，或者可以通过从臭氧化的氧气的传播中选择性地除去氧气，以及冷凝的臭氧可以蒸发的温度范围的一部分 ，并且通过将浓缩的臭氧与流体的流动或通过重力将冷凝的臭氧移动到可以蒸发浓缩的臭氧的部分而使浓缩的臭氧蒸发，从而可以增加臭氧化的氧气的浓度。 这样的结构是，在臭氧浓缩室11,12中填充有用于冷凝和汽化的颗粒材料13具有在侧面具有多面平面的特殊形状的球形形状，或者能够选择性地透过氧气的氧气透过膜130 提供臭氧气体中的气体。

公开(公告)号：US08337768B2

公开(公告)日：2012-12-25

申请号：US13251433

申请日：2011-10-03

Applicant: David M. Hooper ,  Thomas Foster ,  Noel Henson

Inventor： David M. Hooper ,  Thomas Foster ,  Noel Henson

IPC: B01J19/08

CPC classification number: A61K33/40 ,  C01B13/11 ,  C01B2201/22 ,  C01B2201/64 ,  C01B2201/82

Abstract: In accordance with at least one exemplary embodiment, a syringe, method and system for delivering a therapeutic amount of ozone are disclosed. An exemplary syringe can have a gas chamber and one or more electrodes. A portion of at least one electrode can be within the gas chamber. Alternatively, singularly or in conjunction, one or both electrodes can be attached to the outside of an exemplary syringe. One or more electrical contact points can be outside the gas chamber. Each electrical contact point can be connected to an electrode. Oxygen gas can provided within the gas chamber of the exemplary syringe. A medical ozone generator can be connected to the syringe via the electrical contact points. Corona discharge can be effectuated via the electrodes, which can result in an amount of ozone gas can being produced from the oxygen gas.

Abstract translation: 根据至少一个示例性实施例，公开了一种用于递送治疗量的臭氧的注射器，方法和系统。 示例性的注射器可以具有气体室和一个或多个电极。 至少一个电极的一部分可以在气体室内。 或者，单独地或联合地，一个或两个电极可以附接到示例性注射器的外部。 一个或多个电接触点可以在气室外部。 每个电接触点可以连接到电极。 氧气可以设置在示例性注射器的气室内。 医用臭氧发生器可以通过电接点与注射器连接。 可以通过电极实现电晕放电，这可以导致从氧气产生臭氧气体的量。

公开(公告)号：US07691342B2

公开(公告)日：2010-04-06

申请号：US11412940

申请日：2006-04-28

Applicant: Endalkachew Sahle-Demessie ,  Pratim Biswas ,  Unnikrishnan R. Pillai ,  Chulhan Kim

Inventor： Endalkachew Sahle-Demessie ,  Pratim Biswas ,  Unnikrishnan R. Pillai ,  Chulhan Kim

IPC: B01J19/08

CPC classification number: B01D53/32 ,  B01D2255/20707 ,  B01D2255/802 ,  B01D2257/708 ,  B01D2259/818 ,  B01J19/088 ,  B01J19/123 ,  B01J19/2485 ,  B01J2219/00006 ,  B01J2219/00085 ,  B01J2219/083 ,  B01J2219/0849 ,  B01J2219/0871 ,  B01J2219/0877 ,  B01J2219/0892 ,  C01B13/11 ,  C01B2201/14 ,  C01B2201/22 ,  C01B2201/62 ,  C01B2201/64 ,  C01B2201/82 ,  C02F1/325 ,  C02F1/725 ,  C02F1/78 ,  C02F2305/10 ,  Y02W10/37

Abstract: A reactor produces a surface corona for emitting UV light and for the production of ozone by passing air or oxygen through the surface corona. The emitted UV light activates a photocatalyst coated on a surface facing a surface with embedded electrodes which generate the surface corona. The photocatalyst is a thin film of nanoparticle TiO2 with primary particle size of 0.02 to 0.2 μm was deposited on a substrate by a flame aerosol method. The method combines ozonation and photocatalysis to provide effective and efficient oxidation of alcohols and hydrocarbons to value added products. The method can also be used for air and water cleaning.

Abstract translation: 反应器产生用于发射UV光的表面电晕和通过使空气或氧通过表面电晕而产生臭氧。 发射的UV光激活涂覆在面向具有嵌入电极的表面的表面上的光催化剂，其产生表面电晕。 光催化剂是通过火焰气溶胶法将初级粒径为0.02-0.2μm的纳米颗粒TiO 2的薄膜沉积在基材上。 该方法结合了臭氧化和光催化作用，为醇和碳氢化合物提供有效和有效的氧化作用。 该方法也可用于空气和水的清洁。

公开(公告)号：US07588749B2

公开(公告)日：2009-09-15

申请号：US11727978

申请日：2007-03-29

Applicant: David M. Hooper ,  Thomas Foster ,  Noel Henson

Inventor： David M. Hooper ,  Thomas Foster ,  Noel Henson

IPC: C01B13/10 ,  B01D53/04

CPC classification number: C01B13/11 ,  B01D53/0476 ,  B01D2253/108 ,  B01D2256/12 ,  B01D2257/102 ,  B01D2259/40015 ,  B01D2259/4003 ,  B01D2259/4006 ,  B01D2259/40064 ,  B01D2259/40066 ,  B01D2259/40069 ,  B01D2259/401 ,  B01D2259/402 ,  B01D2259/41 ,  C01B2201/14 ,  C01B2201/22 ,  C01B2201/30 ,  C01B2201/64 ,  C01B2201/82

Abstract: Apparatus, method and system for delivering a sterile unit dose of ozone that may include concentrating oxygen from air, which can include pressurizing at least one zeolite chamber having at least one zeolite material where the at least one zeolite material selectively adsorbs a substantial amount of nitrogen and not a substantial amount of oxygen. An oxygen-ozone cell may be filled with substantially concentrated oxygen from the at least one zeolite chamber. The oxygen-ozone cell may then be sequestered. The oxygen-ozone cell may be removed and may be engaged with an ozone conversion unit. The ozone conversion unit may charge the substantially concentrated oxygen generating a predetermined concentration of ozone. The oxygen-ozone cell may be disengaged from the ozone conversion unit.

Abstract translation: 用于递送无菌单位剂量的臭氧的装置，方法和系统，其可以包括从空气中浓缩氧气，其可以包括对具有至少一种沸石材料的至少一个沸石室进行加压，其中至少一种沸石材料选择性吸附大量的氮 而不是大量的氧气。 氧气 - 臭氧池可以从至少一个沸石室填充基本上浓的氧气。 然后可以将氧 - 臭氧细胞隔离。 氧气 - 臭氧池可以被去除并且可以与臭氧转化单元接合。 臭氧转化单元可以对产生预定浓度的臭氧的基本浓缩的氧进行充电。 氧臭氧池可以与臭氧转化装置脱离。

公开(公告)号：US20090110614A1

公开(公告)日：2009-04-30

申请号：US11976362

申请日：2007-10-24

Applicant: David M. Hooper ,  Thomas Foster ,  Noel Henson

Inventor： David M. Hooper ,  Thomas Foster ,  Noel Henson

IPC: C01B13/10 ,  A61M5/00

CPC classification number: A61K33/40 ,  C01B13/11 ,  C01B2201/22 ,  C01B2201/64 ,  C01B2201/82

Abstract: In accordance with at least one exemplary embodiment, a syringe, method and system for delivering a therapeutic amount of ozone are disclosed. An exemplary syringe can have a gas chamber and one or more electrodes. A portion of at least one electrode can be within the gas chamber. Alternatively, singularly or in conjunction, one or both electrodes can be attached to the outside of an exemplary syringe. One or more electrical contact points can be outside the gas chamber. Each electrical contact point can be connected to an electrode. Oxygen gas can provided within the gas chamber of the exemplary syringe. A medical ozone generator can be connected to the syringe via the electrical contact points. Corona discharge can be effectuated via the electrodes, which can result in an amount of ozone gas can being produced from the oxygen gas.

Abstract translation: 根据至少一个示例性实施例，公开了一种用于递送治疗量的臭氧的注射器，方法和系统。 示例性的注射器可以具有气体室和一个或多个电极。 至少一个电极的一部分可以在气体室内。 或者，单独地或联合地，一个或两个电极可以附接到示例性注射器的外部。 一个或多个电接触点可以在气室外部。 每个电接触点可以连接到电极。 氧气可以设置在示例性注射器的气室内。 医用臭氧发生器可以通过电接点与注射器连接。 可以通过电极实现电晕放电，这可以导致从氧气产生臭氧气体的量。

公开(公告)号：US20040084382A1

公开(公告)日：2004-05-06

申请号：US10288087

申请日：2002-11-05

Applicant: Aquapure Technologies, Ltd.

Inventor： Natalia Grigorievna Ryazanova ,  Nikolay Danilovich Ryazanov

IPC: C02F001/48 ,  C02F001/78

CPC classification number: C01B13/11 ,  C01B13/115 ,  C01B2201/22 ,  C01B2201/82 ,  C02F1/001 ,  C02F1/008 ,  C02F1/28 ,  C02F1/283 ,  C02F1/42 ,  C02F1/46 ,  C02F1/4608 ,  C02F1/52 ,  C02F1/5236 ,  C02F1/74 ,  C02F1/78 ,  C02F9/00 ,  C02F2103/42 ,  C02F2209/03 ,  C02F2209/40 ,  C02F2303/04

Abstract: A novel system and method for purification and disinfection of water containing contaminates is provided. The system includes an aeration column, a first intermediate tank, a first mechanical filter, an electric discharge device, a second intermediate tank, a second mechanical filter and a sorption filter. The water is firstly aerated by continuous mixing the water with air and ozone-air mixture. The water obtained after the aeration is treated with coagulant materials in a medium of the ozone-air mixture. Further, the water is filtered from coagulated particles. Thereafter, the water is treated by electric discharges in an air medium. The water is then treated again with coagulant materials. Finally, the water is filtered from remaining contaminates.

Abstract translation: 提供了一种用于净化和消毒含污染物的新颖系统和方法。 该系统包括曝气塔，第一中间罐，第一机械过滤器，放电装置，第二中间罐，第二机械过滤器和吸附过滤器。 首先通过将水与空气和臭氧 - 空气混合物连续混合，使水充气。 曝气后获得的水在臭氧 - 空气混合物的介质中用凝结剂处理。 此外，水从凝结的颗粒中过滤。 此后，在空气介质中通过放电来处理水。 然后用凝结剂再次处理水。 最后，水从剩余的污染物中过滤。

公开(公告)号：US20030108460A1

公开(公告)日：2003-06-12

申请号：US10314823

申请日：2002-12-09

Inventor： Sergey I. Andreev ,  Ivan S. Andreev

IPC: B01J019/08

CPC classification number: E03D9/005 ,  A23L3/3409 ,  A23V2002/00 ,  A61L2/0011 ,  A61L2/0094 ,  A61L2/14 ,  A61L2/202 ,  A61L9/015 ,  A61L9/22 ,  A61L2202/11 ,  B01D53/32 ,  C01B13/11 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/34 ,  C01B2201/82 ,  C02F1/78 ,  C02F2201/782 ,  A23V2200/10 ,  A23V2250/128

Abstract: A method for making surface corona discharge, which produces ozone gas and apparatus for producing the same are disclosed, in which a dielectric spacer/film having a specific capacity Cnull equal to or more than 200 nanofarad per square meter positioned between the base electrode and the net electrode. Said net electrode is a wire net or a perforated metal or a wire winding having an open area not less than about 70%, and a size of hole D equals to or less than about 0.7V/P, where V is a voltage in kilovolts and P is pressure of an ambient air or an oxygen in atmospheres. Net electrode has radius R of wire or radius of an edge of openings in the perforated metal equal to or more than about 1.6d, where d is the thickness of the said dielectric spacer/film, which is determined by a fundamental formula dnull9k/Cnull, where d is in millimeters, Cnull is in nF/m2, and k is dimensionless dielectric constant k of given material. Under disclosed parameters said surface corona is safe for human contact if said net electrode is grounded. Start voltage Vst of ozone production is determined by experimental formula Vstnull0.7null60/Cnull, kV, here Cnull in nF/m2. The even and high intensity corona surface and high ozone output takes place if the operating voltage is more than about 3Vst. AC power supply is applied to produce ozone gas at nullhomenull voltage 0.7-1.0 kV and produces ozone gas more effectively at 2,5-3.6 kV. A method for disinfection and decontamination of objects by using the direct corona contact and apparatus for making the same is disclosed, in which safe corona surface is placed on said object and is acting by ozone, ultraviolet and ion bombing simultaneously in the unique environment, which takes place inside of the safe corona. A method for ozone disinfection and decontamination and devices for making the same is disclosed, in which said ozone generating element is placed in a closed container/room with or without treated objects and produce a high ozone concentration due to effective ozone dispersion from corona surface without blowing of air/oxygen through said container/room.

公开(公告)号：US06511638B2

公开(公告)日：2003-01-28

申请号：US09821245

申请日：2001-03-29

Applicant: Teruo Matsuzaki

Inventor： Teruo Matsuzaki

IPC: B01J1908

CPC classification number: A61L2/202 ,  A01K63/042 ,  A61L9/015 ,  C01B13/11 ,  C01B2201/14 ,  C01B2201/82 ,  C02F1/78 ,  C02F2201/782

Abstract: An apparatus and method for generating ozone is provided. An ozone generator comprises a substantially transparent element having ozone-generating means mounted on an inner element area and an outer element area. An enclosure is positioned over the element, and an oxygen-containing gas is directed through the inner element area, creating ozone from a portion of the oxygen-containing gas. The ozone and oxygen-containing gas is then redirected over the outer element area, so that the oxygen-containing gas is at least twice exposed to the ozone-generating means, thereby generating additional ozone.

公开(公告)号：US4317067A

公开(公告)日：1982-02-23

申请号：US139288

申请日：1980-04-11

Applicant: William A. Fitzsimmons ,  Louis A. Rosocha

Inventor： William A. Fitzsimmons ,  Louis A. Rosocha

IPC: C01B13/11 ,  H01S3/0977 ,  H01S3/091 ,  H05B41/02

CPC classification number: C01B13/11 ,  H01S3/09775 ,  C01B2201/22 ,  C01B2201/24 ,  C01B2201/34 ,  C01B2201/82

Abstract: A discharge device (10) is disclosed which is capable of providing preionizing ultraviolet wave length photons to the area of a gap between the first (15) and second (35) electrodes of the device. The first electrode (15) includes a core (20) of dielectric material, a conductive plate (23) mounted on one surface of the core, and a conductive grid (26) mounted on an opposed surface of the core which faces the second electrode. The application of a negative voltage pulse to the grid (26), while the plate (23) is maintained at substantially ground potential, causes electrons to discharge between the conductors of the grid and the adjacent surface of the dielectric core, and, in doing so, generates photons having wavelengths in the ultraviolet range. The ultraviolet photons, which are emanated in a two dimensionally uniform pattern over the surface of the dielectric core adjacent the grid, cause ionization of the gas within the main discharge gap between the first and second electrodes. The second electrode may be maintained at ground or other potential higher than the grid such that a sufficient potential difference reached between the second electrode and the grid after the preionization will result in a uniform glow discharge of electrons between the two electrodes. This glow discharge is useful for the firing of gas lasers and in certain chemical reactors, such as ozone generators.

Abstract translation: 公开了一种放电装置（10），其能够向装置的第一（15）和第二（35）电极之间的间隙的区域提供预先的紫外线波长光子。 第一电极（15）包括电介质材料的芯（20），安装在芯的一个表面上的导电板（23）和安装在芯的与第二电极相对的表面上的导电栅极 。 当栅极（23）保持在基本接地电位时，将负电压脉冲施加到栅极（26），使得电子在栅格的导体和介质芯的相邻表面之间放电，并且在进行中 因此，产生具有紫外线范围波长的光子。 在与栅格相邻的介质芯的表面上以二维均匀图案发射的紫外光子导致第一和第二电极之间的主放电间隙内的气体离子化。 第二电极可以保持在高于栅格的地或其它电位，使得在预电离之后在第二电极和栅格之间达到足够的电位差将导致电极在两个电极之间的均匀辉光放电。 这种辉光放电对于燃烧气体激光器和某些化学反应器如臭氧发生器是有用的。

公开(公告)号：US12103847B2

公开(公告)日：2024-10-01

申请号：US16743259

申请日：2020-01-15

Applicant: OP-Hygiene IP GmbH

Inventor： Heiner Ophardt ,  Andrew Jones

IPC: C01B13/11 ,  A47K5/12 ,  A47K5/14 ,  A61L2/18 ,  A61L2/24

CPC classification number: C01B13/11 ,  A47K5/1217 ,  A47K5/14 ,  A61L2/183 ,  A61L2/24 ,  A61L2202/11 ,  C01B2201/62 ,  C01B2201/82 ,  C01B2201/90

Abstract: A method for monitoring ozone generation in an oxygen containing gas within a chamber in an ozone generator in which ozone is generated comprising: sensing with a sensor a parameter within the chamber with time; wherein the parameter is selected from the group consisting of sound and electromagnetic radiation and estimating an amount of ozone generated with time as a function of the parameter sensed by the sensor.