公开(公告)号：EP2888198B1

公开(公告)日：2018-07-25

申请号：EP12768884.4

申请日：2012-08-24

Applicant: Aqua21 Limited

Inventor： COSTELLO, Trevor Franklin

IPC: C02F103/00 ,  C02F1/78 ,  B01J19/08 ,  C01B13/11

CPC classification number: C01B13/11 ,  B01J19/087 ,  B01J2219/0875 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/34 ,  C01B2201/40 ,  C01B2201/62 ,  C01B2201/64 ,  C02F1/78 ,  C02F2103/003 ,  C02F2201/48 ,  C02F2303/04 ,  C02F2305/02

Abstract: An ozone generator (1) is presented comprising a body (2), a first electrode (4), a second electrode (6), an elongate channel within the body extending between the first and second electrodes, an inlet (10) and an outlet (12); the elongate channel being in fluid communication with the inlet and the outlet; the elongate channel isolated from each of the first and second electrodes by a respective dielectric layer (22, 24), whereby an electric field can be generated across the elongate channel between the first and second electrodes. The presented ozone generator allows small quantities of ozone to be produced for use in small scale water treatment. In addition, a method of producing ozone is presented using an ozone generator according to the invention.

公开(公告)号：EP1899781A2

公开(公告)日：2008-03-19

申请号：EP06786447.0

申请日：2006-07-07

Applicant: MKS Instruments, Inc.

Inventor： BERKMAN, Vitaly J. ,  RYAN, Thomas J.

IPC: G05D11/00 ,  C01B13/10 ,  H01L21/00

CPC classification number: C01B13/11 ,  C01B2201/40 ,  C01B2201/64 ,  C01B2201/90 ,  G05D11/138 ,  Y10T137/0318

Abstract: An improved system and method for controlling ozone concentration in connection with a multi-chamber tool. The system and method involve a first and a second concentration controller in combination with an ozone generator. The first concentration controller detects an EVENT (i.e., one of the chambers in the multi-chamber tool coming on-line or off-line) and in response provides a power instruction to the ozone generator in accordance with a predictive control algorithm. The first concentration controller has a fast (i.e., about 1 second) response time. The second concentration controller is masked from the ozone generator during the EVENT, but otherwise controls the generator after an interval of time has lapsed after the EVENT. The second concentration controller has a slower response time than the first concentration controller, however the second concentration controller provides the system with long-term stability and can be used to provide updated data to the predictive control algorithm.

公开(公告)号：EP0522429A1

公开(公告)日：1993-01-13

申请号：EP92111125.8

申请日：1992-07-01

Applicant: I.T.M. CORPORATION

Inventor： I.T.M. CORPORATION

IPC: C01B13/11

CPC classification number: C01B13/11 ,  C01B2201/40 ,  C01B2201/76

Abstract: An ozone generating apparatus has a plurality of ozone generating units connected in series to form a plurality of stages along the path of a gas. Each ozone generating unit has an ozonizing chamber (3) having a material gas inlet (1) and a product gas outlet and ozonizer discharge electrodes (4) disposed in the ozonizing chamber and connected to an AC high-voltage source (7a,7b,7c). The voltage applied to said ozonizing discharge electrodes (4) of the successive stages is so varied that the ozonizing discharge electrodes of downstream stage as viewed in the direction of flow of the gas is supplied with a lower voltage than the voltage supplied to said ozonizer discharge electrodes (4) of upstream stage. A series connection of a plurality of ozone generating units may form a composite ozone generating unit, and a plurality of such composite units may be connected in series to form a plurality of stages. The voltages applied to such successive stages is varied in the same manner a above. The ozone generating unit and the AC high-voltage source (7a,7b,7c) can have module constructions.

Abstract translation: 臭氧发生装置具有串联连接的多个臭氧发生单元，以沿着气体的路径形成多个级。 每个臭氧发生单元具有：具有材料气体入口（1）和产物气体出口的臭氧化室（3）;以及设置在臭氧化室中并连接到交流高压源（7a，7b， 7C）。 施加到所述连续级的所述臭氧化放电电极（4）的电压如此变化，使得从气体流动方向观察，下游级的臭氧化放电电极被供应比供应到所述臭氧发生器放电的电压更低的电压 上游级的电极（4）。 多个臭氧发生单元的串联连接可以形成复合臭氧发生单元，并且多个这种复合单元可以串联连接以形成多个级。 施加到这些连续阶段的电压以与上述相同的方式变化。 臭氧发生单元和交流高压电源（7a，7b，7c）可以具有模块结构。

公开(公告)号：WO2017030863A1

公开(公告)日：2017-02-23

申请号：PCT/US2016/046303

申请日：2016-08-10

Applicant: STONE, Robert De La Torre

Inventor： STONE, Robert De La Torre

IPC: C01B13/11 ,  B01J19/08 ,  C02F1/78

CPC classification number: C01B13/11 ,  C01B13/00 ,  C01B2201/12 ,  C01B2201/40 ,  C01B2201/82 ,  C02F1/78

Abstract: 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.

Abstract translation: 具有具有电接地外表面（104）和电正内表面（105）的管（103）的氧同素异形体发生器（101）。 多个电晕反应板（116）沿着管的内部间隔开，这些板通过导线（117,118,121）纵向相互连接并且与电正（109,110）内表面电连接 的管。 外护套（112）围绕管并提供用于部分臭氧化气体在发电机中流动的第二线性通过。 替代实施例包括在电晕反应位置处的外部分布式接地连接（108）。

公开(公告)号：WO2011159544A2

公开(公告)日：2011-12-22

申请号：PCT/US2011/039756

申请日：2011-06-09

Applicant: FOOD SAFETY TECHNOLOGY, LLC ,  LYNN, Daniel W.

Inventor： LYNN, Daniel W.

IPC: C01B13/11 ,  B01J19/08 ,  B01J19/00

CPC classification number: C01B13/11 ,  A23B7/157 ,  A23B7/158 ,  A23V2002/00 ,  A61L2/18 ,  A61L2/183 ,  B01F3/04744 ,  B01F3/04836 ,  B01F2003/04886 ,  C01B2201/32 ,  C01B2201/40 ,  C01B2201/62 ,  C01B2201/64 ,  C11D3/39 ,  C11D3/50 ,  A23V2200/10 ,  A23V2250/128

Abstract: A ozonated liquid dispensing unit is described. The unit produces and dispenses an ozonated liquid that may be used to clean and sanitize a variety of articles or used in conjunction with cleaning processes and other apparatus. The unit includes a liquid input port to receive liquid into the unit. The unit includes a first dielectric cell for producing ozone gas from ambient air and a second dielectric cell for producing ozone gas. The first dielectric cell is in supply communication with the second dielectric cell for supplying the second dielectric cell with a supply gas containing the ozone gas generated from the ambient air. The second dielectric cell produces ozone gas from the supply gas. An injector is in fluidic communication with the liquid input port. The injector in supply communication with the second dielectric cell for receiving the ozone gas from the second dielectric cell, and the injector mixes the ozone gas from the second dielectric cell with the liquid from the liquid input port to produce an ozonated liquid. A liquid output port discharges the ozonated liquid from the unit. A faucet or spray may be used to control the discharge of the ozonated liquid from the unit.

Abstract translation: 描述了臭氧化液体分配单元。 该装置产生和分配臭氧化液体，其可用于清洁和消毒各种物品，或与清洁过程和其他装置结合使用。 该单元包括用于将液体接收到单元中的液体输入端口。 该单元包括用于从环境空气产生臭氧气体的第一介电池和用于产生臭氧气体的第二介电池。 第一电介质电池与第二电介质电池供电连通，用于向第二电介质电池提供含有由环境空气产生的臭氧气体的供应气体。 第二介质电池从供应气体产生臭氧气体。 注射器与液体输入端口流体连通。 与第二电介质池供电连接的注射器，用于从第二介电池接收臭氧气体，并且喷射器将来自第二介质池的臭氧气体与来自液体输入端口的液体混合以产生臭氧化液体。 液体输出口从该单元排出臭氧化液体。 可以使用水龙头或喷雾器来控制来自该单元的臭氧化液体的排放。

公开(公告)号：WO1991018662A1

公开(公告)日：1991-12-12

申请号：PCT/CA1991000184

申请日：1991-05-29

Applicant: SYSTEMES OZONICS INC. ,  FLETCHER, David ,  WELFORD, Barry

Inventor： SYSTEMES OZONICS INC.

IPC: B01D53/32

CPC classification number: B01D53/32 ,  C01B13/11 ,  C01B2201/34 ,  C01B2201/40

Abstract: A closed container (1) has openings (4) at an input end (3) for drawing air into the container and openings (6) at the output end (5) for passing air out of the container. An ozone generator (9) is disposed inside the container adjacent the input end and a corona generator (11) is disposed in the container adjacent the output end. The corona generator includes a dielectric made of a material having a dielectric constant of 1000 or greater. Impure air which is drawn in at the input end passes over the ozone generator whereby the ozone reacts with the impurities of the impure air to provide purified air. The purified air with remaining ozone is passed over the corona generator means to destroy the remaining ozone.

公开(公告)号：EP2945905A4

公开(公告)日：2016-08-03

申请号：EP14740493

申请日：2014-01-17

Applicant: FOOD SAFETY TECHNOLOGY LLC ,  LYNN DANIEL W

Inventor： LYNN DANIEL W

IPC: C01B13/11 ,  A01N59/00

CPC classification number: C01B13/11 ,  A01N59/00 ,  C01B2201/40 ,  C01B2201/62 ,  C01B2201/64 ,  A01N25/02

Abstract: A reaction vessel and an ozonated liquid dispensing unit are described herein. The unit produces and dispenses an ozonated liquid that may be used to clean and sanitize a variety of articles or used in conjunction with cleaning processes and other apparatus. The reaction vessel is incorporated into the unit to reduce bubbles of ozone gas and to break up bubbles of ozone gas in the ozonated liquid to provide a more effective and longer lasting cleaning and sanitizing solution.

公开(公告)号：EP2582621A4

公开(公告)日：2015-09-16

申请号：EP11796204

申请日：2011-06-09

Applicant: FOOD SAFETY TECHNOLOGY LLC

Inventor： LYNN DANIEL W

IPC: C01B13/11 ,  A23B7/157 ,  A23B7/158 ,  A61L2/18 ,  B01F3/00 ,  B01F3/04 ,  B01F5/00 ,  B01J19/00 ,  B01J19/08 ,  C11D3/39 ,  C11D3/50

CPC classification number: C01B13/11 ,  A23B7/157 ,  A23B7/158 ,  A23V2002/00 ,  A61L2/18 ,  A61L2/183 ,  B01F3/04744 ,  B01F3/04836 ,  B01F2003/04886 ,  C01B2201/32 ,  C01B2201/40 ,  C01B2201/62 ,  C01B2201/64 ,  C11D3/39 ,  C11D3/50 ,  A23V2200/10 ,  A23V2250/128

Abstract: A ozonated liquid dispensing unit is described. The unit produces and dispenses an ozonated liquid that may be used to clean and sanitize a variety of articles or used in conjunction with cleaning processes and other apparatus. The unit includes a liquid input port to receive liquid into the unit. The unit includes a first dielectric cell for producing ozone gas from ambient air and a second dielectric cell for producing ozone gas. The first dielectric cell is in supply communication with the second dielectric cell for supplying the second dielectric cell with a supply gas containing the ozone gas generated from the ambient air. The second dielectric cell produces ozone gas from the supply gas. An injector is in fluidic communication with the liquid input port. The injector in supply communication with the second dielectric cell for receiving the ozone gas from the second dielectric cell, and the injector mixes the ozone gas from the second dielectric cell with the liquid from the liquid input port to produce an ozonated liquid. A liquid output port discharges the ozonated liquid from the unit. A faucet or spray may be used to control the discharge of the ozonated liquid from the unit.

公开(公告)号：EP1795500A1

公开(公告)日：2007-06-13

申请号：EP04788340.0

申请日：2004-09-29

Applicant: Toshiba Mitsubishi-Electric Industrial Systems Corporation

Inventor： TABATA, Yoichiro, TOSHIBA MIT.-ELECT.IND.SYST.CORP ,  OKIHARA, Yujiro, TOSHIBA MIT.-ELEC.IND.SYST. CORP. ,  ISHIKAWA, Masayuki, TOSHIBA MIT.-E.IND.SYST.CORP. ,  SAITSU, Tetsuya, TOSHIBA MIT.-ELEC.IND. SIST. CORP

IPC: C01B13/11 ,  H02M7/48

CPC classification number: H02M7/48 ,  C01B13/115 ,  C01B2201/12 ,  C01B2201/40 ,  C01B2201/76 ,  C01B2201/84 ,  C01B2201/90

Abstract: The present invention provides a compact, inexpensive, large-capacity ozone generator and increases the ease of apparatus maintenance. An ozone power supply that is included in the present invention comprises an n-phase inverter for effecting conversion to obtain an AC voltage having a predetermined frequency and outputting an n-phase AC voltage waveform; n reactors and n-phase transformer for converting an n-phase AC voltage to a high AC voltage; n high-voltage terminals for outputting an n-phase high AC voltage; and a low-voltage terminal having a common potential. A plurality of ozone generator units that are included in the present invention are electrically divided into n pieces within a discharge chamber. From each ozone generator unit, n high-voltage electrode terminals and one low-voltage electrode terminal, which is common to all low-voltage electrodes of the ozone generator units, are pulled out to connect n high-voltage terminals to n high-voltage electrode terminals. Further, one low-voltage electrode terminal is connected to a low-voltage terminal so that each ozone generator unit invokes an n-phase AC discharge to generate ozone.

Abstract translation: 本发明提供了一种紧凑，便宜的大容量臭氧发生器，并增加了设备维护的便利性。 包括在本发明中的臭氧电源包括用于进行转换以获得具有预定频率的AC电压并输出n相AC电压波形的n相逆变器; n个电抗器和n相变压器，用于将n相交流电压转换成高交流电压; n个高压端子，用于输出n相高交流电压; 以及具有共同电位的低电压端子。 包括在本发明中的多个臭氧发生器单元在放电室内电分为n个。 从每个臭氧发生器单元，抽出臭氧发生器单元的所有低压电极所共有的n个高压电极端子和一个低压电极端子，将n个高压端子连接到n个高压 电极端子。 此外，一个低电压电极端子连接到低电压端子，使得每个臭氧发生器单元调用n相AC放电以产生臭氧。

公开(公告)号：EP0532547B1

公开(公告)日：1995-08-16

申请号：EP91909960.6

申请日：1991-05-29

Applicant: SYSTEMES OZONICS INC.

Inventor： FLETCHER, David ,  WELFORD, Barry

IPC: B01D53/32 ,  B01J19/08

CPC classification number: B01D53/32 ,  C01B13/11 ,  C01B2201/34 ,  C01B2201/40

Abstract: A closed container (1) has openings (4) at an input end (3) for drawing air into the container and openings (6) at the output end (5) for passing air out of the container. An ozone generator (9) is disposed inside the container adjacent the input end and a corona generator (11) is disposed in the container adjacent the output end. The corona generator includes a dielectric made of a material having a dielectric constant of 1000 or greater. Impure air which is drawn in at the input end passes over the ozone generator whereby the ozone reacts with the impurities of the impure air to provide purified air. The purified air with remaining ozone is passed over the corona generator means to destroy the remaining ozone.