公开(公告)号：US20230271832A1

公开(公告)日：2023-08-31

申请号：US18040250

申请日：2021-04-26

Applicant: SUMITOMO PRECISION PRODUCTS CO., LTD.

Inventor： Shigekazu TOKUTAKE

IPC: C01B13/11

CPC classification number: C01B13/115 ,  C01B2201/90

Abstract: The control device includes a storage configured to store two or more functions indicating a relationship between the power source output and the ozone concentration corresponding to the power source output in accordance with different gas flow rates in the ozone generator. The control device obtains a first power source output corresponding to the set ozone concentration and a second power source output corresponding to the detected ozone concentration based on the set ozone concentration of the ozone generator, an index indicating the gas flow rate of the ozone generator, the detected ozone concentration, and the two or more functions, and executing feedback control of controlling the power source output based on a difference between the first power source output and the second power source output.

公开(公告)号：US11691876B2

公开(公告)日：2023-07-04

申请号：US16622927

申请日：2018-06-29

Applicant: SUEZ GROUPE

Inventor： Bruno Steinlin ,  Tito Scherrer ,  Luca Ramoino

IPC: C01B13/11 ,  A61L2/20 ,  B63J2/02 ,  C02F1/467 ,  C02F103/00

CPC classification number: C01B13/115 ,  A61L2/202 ,  B63J2/02 ,  C02F1/4672 ,  C01B2201/74 ,  C01B2201/90 ,  C02F2103/008 ,  C02F2201/001 ,  C02F2201/782

Abstract: Ozone generating machine (OGM) for generating ozone in a ship, comprising:



an ozone generator with at least two electrodes separated by an ozonizing gap and at least a gas inlet for receiving a feed gas containing dioxygen, and a gas outlet for exhausting gas comprising ozone to an ozone circuit of the ship,
a main liquid cooling circuit (CWP, CWT), with at least a cooling portion in the ozone generator, to be connected with a cooling circuit of a ship,
a liquid-liquid heat exchanger (LLHEX) connected with the main liquid cooling circuit (CWP, CWT), and
an electrical closed cabinet (ECB) comprising an electric current converter (ECV),

characterized in that the ozone generating machine (OGM) further comprises a closed loop cooling liquid circuit (CLC) comprising a converter liquid cooling portion (CECV) arranged to cool the electric current converter (ECV) and connected with the liquid-liquid heat exchanger (LLHEX).

公开(公告)号：US20230193491A1

公开(公告)日：2023-06-22

申请号：US18079103

申请日：2022-12-12

Applicant: ProMinent GmbH

Inventor： Thomas Lessle

IPC: C25B15/029 ,  C25B1/13 ,  C01B13/11

CPC classification number: C25B15/029 ,  C25B1/13 ,  C01B13/115 ,  C01B2201/90

Abstract: The present invention comprises a method for optimizing the consumption of an operating resource of ozone generators in which an oxygen-containing gas is conveyed through an existing gap between two conductors, between which there is a potential difference, wherein the ozone generator has a generator rated power Pn that is achieved when the ozone generator has an electrical power Pel=Pel,max coupled and the oxygen-containing gas is conveyed through the gap with a gas flow φN, such that the gas that flows through has an ozone concentration cozN, wherein the method comprises the following steps:



A) specify a required generator power Ptarget,
B) if 0

公开(公告)号：US20180194649A1

公开(公告)日：2018-07-12

申请号：US15911474

申请日：2018-03-05

Applicant: Custom Molded Products, LLC

Inventor： Frank G. Martin ,  Joseph A. Cannavino

IPC: C02F1/467 ,  C01B13/11

CPC classification number: C02F1/4672 ,  C01B13/11 ,  C01B2201/24 ,  C01B2201/34 ,  C01B2201/72 ,  C01B2201/90 ,  C02F1/001 ,  C02F1/78 ,  C02F2103/42 ,  C02F2201/46105 ,  C02F2303/04 ,  Y10T29/42 ,  Y10T29/49124

Abstract: Corrosion Resistant Ozone Generators, including ozone generating chips, for various purposes including spas, pools and jetted tubs as well as methods for making and using such Corrosion Resistant Ozone Generators.

公开(公告)号：US20180111861A1

公开(公告)日：2018-04-26

申请号：US15792858

申请日：2017-10-25

Applicant: DS SERVICES OF AMERICA, INC.

Inventor： Bruce D. Burrows

IPC: C02F1/78 ,  C01B13/10

CPC classification number: C02F1/78 ,  C01B13/10 ,  C01B2201/90 ,  C02F1/001 ,  C02F1/283 ,  C02F1/441 ,  C02F2101/36 ,  C02F2201/782 ,  C02F2201/784 ,  C02F2209/006

Abstract: A water purification system that generates ozone and passes the ozone through stored purified water to reduce the growth and/or presence of bacteria, organisms, and/or other undesirable components in purified water.

公开(公告)号：US20180070616A1

公开(公告)日：2018-03-15

申请号：US15691003

申请日：2017-08-30

Applicant: Robert W. Smith

Inventor： Robert W. Smith

IPC: A23L3/3445 ,  C01B13/11 ,  A61L2/20 ,  A61L2/26 ,  A23B7/152

CPC classification number: A23L3/3445 ,  A23B7/152 ,  A23V2002/00 ,  A61L2/202 ,  A61L2/26 ,  C01B13/11 ,  C01B13/115 ,  C01B2201/12 ,  C01B2201/90

Abstract: 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.

公开(公告)号：US09906118B2

公开(公告)日：2018-02-27

申请号：US15071046

申请日：2016-03-15

Applicant: Walter Buchanan

Inventor： Walter Buchanan ,  David Forsee ,  Chris Hruska

IPC: H02M1/12 ,  C02F1/78 ,  H02M7/48 ,  C02F1/72 ,  C01B13/11

CPC classification number: H02M1/12 ,  C01B13/11 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/64 ,  C01B2201/90 ,  C02F1/727 ,  C02F1/78 ,  C02F2209/40 ,  C02F2303/04 ,  C02F2305/023 ,  H02M2007/4815

Abstract: A system for performing ozone water treatment comprises a voltage supply circuit and a plasma eductor reactor. The voltage supply circuit includes an H-bridge controller and driver, a transformer, and an output port. The H-bridge controller and driver are configured to switch the electrical polarity of a pair of terminals. A primary of the transformer is connected to the H-bridge driver and controller. A secondary of the transformer connects in parallel with a first capacitor and in series with an inductor and a second capacitor. The output port connects in parallel with the second capacitor. The plasma eductor reactor includes an electric field generator, a flow spreader, and a diffuser. The electric field generator includes a pair of electrodes that generate an electric field. The flow spreader supplies a stream of oxygen. The diffuser supplies a stream of water. The streams of water and oxygen pass through the electric field.

公开(公告)号：US09865426B2

公开(公告)日：2018-01-09

申请号：US15056330

申请日：2016-02-29

Applicant: MKS Instruments, Inc.

Inventor： Ken Tran ,  Feng Tian ,  Xing Chen ,  Franklin Lee

IPC: C01B13/11 ,  H01J37/248

CPC classification number: H01J37/248 ,  C01B13/115 ,  C01B2201/90

Abstract: Improvements in the supply of high-frequency electrical power to ozone-producing cells can be accomplished using the systems and techniques described herein. Application of a DC-DC converter operating at a switching frequency substantially greater than a load frequency, supports generation of a high-voltage AC for powering such cells, while allowing for reductions in component size and reductions in a quality factor of a load tuning circuit. Controllable power inverters used in obtaining one or more of the switching and load frequencies can be controlled using feedback techniques to provide stable, high-quality power to ozone-producing cells under variations in one or more of externally supplied power and load conditions. An inrush protection circuit can also be provided to selectively introduce a current-limiting resistance until an input DC bus has been sufficiently initialized as determined by measurements obtained from the DC bus. The current limiting resistance can be a positive-temperature coefficient thermistor.

公开(公告)号：US20160361693A1

公开(公告)日：2016-12-15

申请号：US15118992

申请日：2015-01-06

Applicant: ORGANO CORPORATION

Inventor： Yoshifumi HAYASHI ,  Yukinari YAMASHITA ,  Koji YAMANAKA

IPC: B01F3/04 ,  C01B13/11 ,  B01F5/10 ,  C02F1/78 ,  B01F15/00 ,  B01F3/20

CPC classification number: B01F3/04985 ,  B01F3/04439 ,  B01F3/2057 ,  B01F5/106 ,  B01F15/0022 ,  B01F15/00344 ,  B01F15/0408 ,  B01F2003/04886 ,  C01B13/11 ,  C01B2201/64 ,  C01B2201/90 ,  C02F1/78 ,  C02F2103/04 ,  C02F2201/782 ,  C02F2209/23

Abstract: An ozonated water supply method includes: feeding dissolving water contained in a circulation tank to an ozonation device at a given feed rate while feeding ultrapure water to the circulation tank, and returning ozonated water that has not been used at a use point to the circulation tank, dissolving ozone in the dissolving water using the ozonation device to obtain ozonated water, and feeding the ozonated water to the use point; feeding oxygen gas having a nitrogen gas content of 0.01 vol % or less to a discharge-type ozone gas-producer, and feeding the resulting ozone-containing gas to the ozonation device; adjusting the feed rate of the ultrapure water to the circulation tank; and adjusting the dissolved ozone concentration in the ozonated water. The method can reduce or suppress the accumulation of nitric acid in the recirculation system when a discharge-type ozone gas-producer is used as the ozone gas-producer.

Abstract translation: 臭氧水供给方法包括：以给定的进料速率将包含在循环罐中的溶解水加入到臭氧装置中，同时向循环罐供给超纯水，并将循环罐中未使用的臭氧水返回到循环罐 使用臭氧化装置将臭氧溶解在溶解水中，得到臭氧化水，将臭氧水供给到使用点; 向放电型臭氧气体生产器供给氮气含量为0.01体积％以下的氧气，并将得到的含臭氧气体供给到臭氧化装置中; 调节超纯水进入循环罐的进料速度; 并调节臭氧水中溶解的臭氧浓度。 当使用排放型臭氧气体生产者作为臭氧气体生产者时，该方法可以减少或抑制再循环系统中硝酸的积聚。

公开(公告)号：US20160251221A1

公开(公告)日：2016-09-01

申请号：US15153982

申请日：2016-05-13

Applicant: Wayne Wolf

Inventor： Wayne Wolf

IPC: C01B13/11

CPC classification number: C01B13/115 ,  B01J19/088 ,  B01J2219/0809 ,  B01J2219/083 ,  B01J2219/0849 ,  B01J2219/0875 ,  C01B13/11 ,  C01B2201/14 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/62 ,  C01B2201/76 ,  C01B2201/90 ,  Y10T29/4973

Abstract: A method of replacing an electrode assembly of an ozone generator includes removing an upper closure plate of the ozone generator, removing a contact plate, lifting an individual electrode assembly to be replaced from its associated dielectric tube, and sliding a replacement electrode assembly into place. A method of replacing a dielectric tube of an ozone generator includes removing the upper closure plate, contact plate, individual electrode assembly to be replaced from its associated dielectric tube, removing a suspension means and its associated suspended dielectric tube from its respective lower seal plate aperture, sliding a replacement dielectric tube into the removed suspension means, sliding the removed suspension means and replacement dielectric tube into its respective lower seal plate aperture, sliding the lifted electrode assembly into the replaced dielectric tube, and sliding the electrode assembly with its replaced dielectric tube suspended from its associated suspension means into place.

Abstract translation: 更换臭氧发生器的电极组件的方法包括去除臭氧发生器的上封闭板，去除接触板，从其相关联的电介质管提起待更换的单个电极组件，并将替换电极组件滑动到位。 更换臭氧发生器的电介质管的方法包括从其相关联的介电管去除上封闭板，接触板，待更换的单独电极组件，从其相应的下密封板孔中移除悬挂装置及其相关联的悬置电介质管 将替代的电介质管滑入去除的悬挂装置中，将移除的悬挂装置和替换的介质管滑动到其相应的下密封板孔中，将提升的电极组件滑动到更换的电介质管中，并且将电极组件与替换的介质管 从其相关联的悬挂装置悬挂到位。