公开(公告)号：US20150165448A1

公开(公告)日：2015-06-18

申请号：US14402968

申请日：2013-05-21

Applicant: Adey Holdings (2008) Limited

Inventor： Christopher Adey ,  Simon Downie ,  Matthew Taylor

IPC: B03C1/14 ,  F16L29/00 ,  F16L21/00 ,  C02F1/48 ,  B03C1/30

CPC classification number: B04C5/14 ,  B01D21/0009 ,  B01D21/0042 ,  B01D21/2411 ,  B01D21/2483 ,  B01D21/26 ,  B01D21/267 ,  B01D29/908 ,  B01D35/06 ,  B01D35/303 ,  B01D2201/302 ,  B01D2201/4023 ,  B01D2221/02 ,  B03C1/02 ,  B03C1/0355 ,  B03C1/14 ,  B03C1/286 ,  B03C1/288 ,  B03C1/30 ,  B03C2201/18 ,  B03C2201/20 ,  B03C2201/28 ,  B04C3/06 ,  B04C5/185 ,  B21D39/044 ,  C02F1/488 ,  C02F2101/203 ,  C02F2201/48 ,  C02F2303/22 ,  E03B7/074 ,  F16L21/00 ,  F16L29/007 ,  F16L55/24 ,  F17D3/16 ,  F24D19/0092 ,  Y10T137/794

Abstract: A separator device for removing particles from suspension in a fluid includes a housing having first and second apertures for ingress and egress of fluid into and out of the housing. A first separator chamber is disposed at one end of the housing. A second separator chamber is disposed at the other end of the housing. A central chamber is disposed between the first and second separator chambers. The first and second separator chambers are apertured for ingress and egress of fluid from the central chamber, and each contains obstruction means to slow the flow of fluid within the chamber.

Abstract translation: 用于从流体悬浮液中除去颗粒的分离器装置包括具有第一和第二孔的壳体，所述第一孔和第二孔用于流入和流出壳体的流入和流出。 第一分隔室设置在壳体的一端。 第二分隔室设置在壳体的另一端。 中央室设置在第一和第二分离器室之间。 第一和第二分离器室是有孔的，用于从中心室进入和流出流体，并且每个分隔室包含阻塞装置以减缓腔室内的流体流动。

公开(公告)号：US09039901B2

公开(公告)日：2015-05-26

申请号：US12117083

申请日：2008-05-08

Applicant: John W. White

Inventor： John W. White

IPC: C02F1/48

CPC classification number: C02F1/481 ,  C02F2201/48

Abstract: A magnetic water conditioner treats water with a magnetic field. The magnetic water conditioner includes a tank having an inlet operable to receive water from a pump and an outlet operable to discharge the water. The magnetic water conditioner is installed in close proximity to the pump. A plurality of permanent magnet members are aligned and spaced apart in the interior of the tank with north and south poles disposed at opposite sides of the permanent magnet members. The water flows through the gaps between the permanent magnet members, thus being subjected to magnetic fields created by the permanent magnet members.

Abstract translation: 磁性水调节器用水处理磁场。 磁性水调节器包括具有可操作以从泵接收水的入口的罐和可操作以排出水的出口。 磁性水调节器安装在靠近泵的位置。 多个永磁体构件在罐的内部对齐并间隔开，其中北极和南极设置在永磁体构件的相对侧。 水流过永磁体之间的间隙，从而受到由永磁体构成的磁场。

公开(公告)号：US20150096928A1

公开(公告)日：2015-04-09

申请号：US14401948

申请日：2013-05-21

Applicant: Adey Holdings Limited

Inventor： Christopher Adey ,  Simon Downie

IPC: C02F1/48

CPC classification number: C02F1/481 ,  B01D21/0009 ,  B01D21/0042 ,  B01D21/2405 ,  B01D21/2411 ,  B01D21/2483 ,  B01D2221/02 ,  B03C1/286 ,  B03C2201/18 ,  B03C2201/28 ,  C02F2101/203 ,  C02F2201/48 ,  F24D19/0092

Abstract: A separator device (10) for removing particles from suspension in a fluid comprising: a housing (12), having a central axis extending between first and second opposing ends; an inlet (34) and an outlet (36) provided in an end of the housing (12); a separation chamber (46) for separating solid particles from the fluid, including obstruction means (60) to slow the flow of fluid within the chamber.

Abstract translation: 一种用于从流体悬浮液中除去颗粒的分离装置（10），包括：壳体（12），其具有在第一和第二相对端之间延伸的中心轴线; 设置在所述壳体（12）的端部中的入口（34）和出口（36）; 用于从流体分离固体颗粒的分离室（46），包括阻塞装置（60），以减缓腔室内的流体流动。

公开(公告)号：US20120312727A1

公开(公告)日：2012-12-13

申请号：US13491399

申请日：2012-06-07

Applicant: Taro FUKAYA ,  Kenji TSUTSUMI ,  Atsushi YAMAZAKI ,  Ichiro YAMANASHI ,  Hirofumi NOGUCHI ,  Yasutaka KIKUCHI ,  Shuji SEKI

Inventor： Taro FUKAYA ,  Kenji TSUTSUMI ,  Atsushi YAMAZAKI ,  Ichiro YAMANASHI ,  Hirofumi NOGUCHI ,  Yasutaka KIKUCHI ,  Shuji SEKI

IPC: B01D35/18

CPC classification number: C02F1/5281 ,  C02F1/001 ,  C02F1/488 ,  C02F1/5245 ,  C02F2101/20 ,  C02F2201/48 ,  C02F2209/06 ,  Y10S210/912

Abstract: According to one embodiment, a copper recovery apparatus includes a precipitation tank, a mixing tank, a filter-aid feeder, a solid-liquid separator includes a filter, a cleaning-water supply line, a cleaning-water discharge line, a separation tank, and a filter-aid return line. The precipitation tank is configured to receive copper ions-containing water to be treated and an alkali to prepare treated water containing a precipitate of copper compound. The solid-liquid separator is configured to allow the treated water to be passed through the filter on which the precoat layer is deposited to separate the precipitate retained on the precoat layer from a filtrate.

Abstract translation: 根据一个实施例，一种铜回收装置包括沉淀池，混合罐，助滤剂进料器，固液分离器包括过滤器，清洁水供应管线，清洗水排出管线，分离罐 ，和一个助滤剂返回管线。 沉淀池被配置为接收待处理的含铜离子的水和碱，以制备含有铜化合物沉淀物的处理水。 固 - 液分离器被配置成允许处理过的水通过其上沉积预涂层的过滤器，以从滤液中分离保留在预涂层上的沉淀物。

公开(公告)号：US20110309026A1

公开(公告)日：2011-12-22

申请号：US13112251

申请日：2011-05-20

Applicant: Arden Ayube Warner

Inventor： Arden Ayube Warner

IPC: B01D35/02 ,  C02F1/00

CPC classification number: F16L55/162 ,  C02F1/484 ,  C02F1/488 ,  C02F1/681 ,  C02F2101/32 ,  C02F2103/007 ,  C02F2201/48 ,  E02B15/048

Abstract: A method and system for efficient oil spill cleanup are disclosed. Inserting magnetic filings in the oil magnetizes the spilled oil. An electromagnetic boom associated with an oil spill cleanup apparatus are used to create a magnetic field proximate to the electromagnetic boom. The magnetic field draws the magnetized oil toward the boom. The magnetic field is periodically switched on and off to create a pumping effect and draws the magnetized oil to a collection apparatus. The electromagnetic boom is directed through the effected environment using a thruster on the distal end of the boom.

Abstract translation: 公开了一种有效的溢油清理方法和系统。 在油中插入磁性填料会使溢出的油体发生磁化。 与漏油清除装置相关联的电磁吊杆用于产生靠近电磁吊杆的磁场。 磁场将磁化油吸引到起重臂。 周期性地打开和关闭磁场以产生泵送效果并将磁化的油抽吸到收集装置。 电动吊杆通过使用在悬臂的远端上的推进器导向受影响的环境。

公开(公告)号：US20040254682A1

公开(公告)日：2004-12-16

申请号：US10330839

申请日：2002-12-27

Inventor： Tim Kast

IPC: G05B021/00

CPC classification number: C02F3/1294 ,  C02F1/001 ,  C02F1/4602 ,  C02F1/48 ,  C02F1/505 ,  C02F9/00 ,  C02F2103/023 ,  C02F2201/008 ,  C02F2201/4613 ,  C02F2201/4617 ,  C02F2201/48 ,  C02F2209/005 ,  C02F2209/40 ,  C02F2303/08 ,  C02F2303/20 ,  Y02W10/15

Abstract: An apparatus, system and method of providing non-chemical cooling water treatment and management is disclosed. The invention combats the problems of scaling, microbiological growth, corrosion and fouling. The overall system is regulated by a monitoring and control system that allows for full management of cooling water treatment. Without the use of chemicals, the system and method of the present invention is an effective, safe and environmentally sound approach to the treatment of cooling water.

Abstract translation: 公开了提供非化学冷却水处理和管理的装置，系统和方法。 本发明克服了结垢，微生物生长，腐蚀和结垢等问题。 整个系统由监测和控制系统进行调节，允许对冷却水处理进行全面管理。 不使用化学品，本发明的系统和方法是一种有效，安全和无害环境的方法来处理冷却水。

公开(公告)号：US20240166539A1

公开(公告)日：2024-05-23

申请号：US17992375

申请日：2022-11-22

Applicant: Saudi Arabian Oil Company

Inventor： Matteo Leoni ,  Muhammad Imran Ul-haq ,  Ahmed K. Alasseel ,  Sohel Shaikh ,  Jorge J. Delgado ,  Mosab T. Kheyami

IPC: C02F1/48

CPC classification number: C02F1/484 ,  C02F2201/004 ,  C02F2201/48 ,  C02F2301/043

Abstract: The present disclosure provides a method for trapping corrosion products in a plant, the method comprising: installing, at the plant where a fluid is being processed, a trap system having one or more magnetic elements, at least one entry port, and at least one exit port; configuring the trap system such that the fluid flows in a prescribed pattern through the trap system; and activating the one or more magnetic elements of the trap system such that the corrosion products in the fluid are retained by the one or more magnetic elements and limited to portions of the plant while the fluid flows from the at least one entry port to the at least one exit port.

公开(公告)号：US11926539B2

公开(公告)日：2024-03-12

申请号：US18033552

申请日：2020-10-25

Applicant: ACQUOLINA IL MONDO, LLC

Inventor： Garry Bush ,  Robert Keetch

IPC: C02F1/26 ,  C02F1/20 ,  C02F9/00 ,  C02F1/00 ,  C02F1/02 ,  C02F1/32 ,  C02F1/52 ,  C02F1/66 ,  C02F5/06 ,  C02F103/08

CPC classification number: C02F1/265 ,  C02F1/20 ,  C02F9/00 ,  C02F1/001 ,  C02F2001/007 ,  C02F1/02 ,  C02F1/32 ,  C02F1/5236 ,  C02F1/66 ,  C02F5/06 ,  C02F2103/08 ,  C02F2201/004 ,  C02F2201/48 ,  C02F2209/02 ,  C02F2209/03 ,  C02F2209/05 ,  C02F2303/04 ,  C02F2303/18

Abstract: According to some embodiments, a system for desalination of a liquid comprises at least one primary treatment process, at least one secondary treatment process, wherein the at least one secondary treatment process comprises at least one reactor, and at least one tertiary treatment process, wherein the at least one primary treatment process is configured to adjust a pH of the liquid to target pH level and to add at least one chemical additive to the liquid, wherein the at least one reactor is configured to heat the liquid to a temperature of at least 350° F. and to supply a pressure to the liquid to maintain the liquid in a liquid state, and wherein the dissolved salt of the liquid is configured to react with at least a portion of the at least one chemical additive to form an insoluble product within the at least one reactor.

公开(公告)号：US20180148358A1

公开(公告)日：2018-05-31

申请号：US15814535

申请日：2016-07-30

Applicant: Bernardo Alberto Silva De Jesus

Inventor： Bernardo Alberto Silva De Jesus ,  Martha Lucia Silva Ramirez ,  Andres Mauricio Silva Silva ,  Julian Felipe Silva Silva

IPC: C02F1/48 ,  B08B9/027

CPC classification number: C02F1/484 ,  B08B9/027 ,  C02F2201/48 ,  C02F2303/04 ,  C02F2303/20

Abstract: The present application relates to an apparatus and method for fluids microbiological control in electrical conductive or not electrical conductive current pipes, by applying electric and magnetic fields generated from alternating electrical current of low voltage and low frequency. The apparatus is characterized by comprising a set of cells (21) of piping being electrical conductor or not, separated by electrical insulating joints (10A), but hydraulically interconnected to form sections (22) arranged or connected in series. The apparatus has an electrical arrangement that allows the direction of the magnetic field generated by the current passing through the insulated electric wire, which goes inside the pipe, be added to the direction of magnetic field generated within the pipe. The result of the sum of these magnetic and electrical fields is a tangential reinforced force. The reinforced resultant has helically—centrifuged form with direction to the inner wall of the tube (which carries lots of electrons). These electromagnetic forces push bacteria to the inner tube surface. These forces stress the membrane of these microorganisms and generating pores in the membrane, which eventually causes total lysis.

公开(公告)号：USD812724S1

公开(公告)日：2018-03-13

申请号：US29560419

申请日：2016-04-06

Applicant: Adey Holdings (2008) Limited

Designer： Christopher Adey ,  Matthew Taylor ,  Simon Downie

CPC classification number: B04C5/14 ,  B01D21/0009 ,  B01D21/0042 ,  B01D21/2411 ,  B01D21/2483 ,  B01D21/26 ,  B01D21/267 ,  B01D29/908 ,  B01D35/06 ,  B01D35/303 ,  B01D2201/302 ,  B01D2201/4023 ,  B01D2221/02 ,  B03C1/02 ,  B03C1/0355 ,  B03C1/14 ,  B03C1/286 ,  B03C1/288 ,  B03C1/30 ,  B03C2201/18 ,  B03C2201/20 ,  B03C2201/28 ,  B04C3/06 ,  B04C5/185 ,  B21D39/044 ,  C02F1/488 ,  C02F2101/203 ,  C02F2201/48 ,  C02F2303/22 ,  E03B7/074 ,  F16L21/00 ,  F16L29/007 ,  F16L55/24 ,  F17D3/16 ,  F24D19/0092 ,  Y10T137/794

Abstract: A separator device for removing particles from suspension in a liquid comprises: a housing (12), having first (19) and second (40) chambers with apertures (98) for ingress and egress of liquid into the first chamber (19); means (100) for setting up a swirl of liquid within the first chamber (19); apertures enabling flow of liquid between the first chamber (19) and the second chamber (40); means for setting up a swirl of liquid within the second chamber (40), the swirl in the second chamber (40) being in substantially the opposite direction to the swirl in the first chamber, and there being no substantial flow in the second chamber (40) which is in the same direction as the swirl in the first chamber (19).