公开(公告)号：US20140339169A1

公开(公告)日：2014-11-20

申请号：US13894804

申请日：2013-05-15

Applicant: Fevzi ZEREN ,  Zekeriye KONUKOGLU

Inventor： Fevzi ZEREN ,  Zekeriye KONUKOGLU

IPC: C02F1/44

CPC classification number: C02F1/441 ,  B01D61/025 ,  B01D2311/243 ,  B01D2313/12 ,  B01D2313/125 ,  B01D2315/06 ,  B01D2317/04 ,  B01D2321/08 ,  C02F2103/007 ,  C02F2103/08 ,  C02F2201/007 ,  C02F2201/008 ,  C02F2209/03 ,  Y02A20/131 ,  Y02W10/37

Abstract: A reverse osmosis sub-sea desalination system is disclosed. The reverse osmosis system may include a reverse osmosis station configured to generate fresh water from salty water, a storage tank configured to store fresh water downstream of the reverse osmosis station, and a pump fluidly connected to the reverse osmosis station and the storage tank. The reverse osmosis station, the storage tank, and the pump may be disposed at one or more depths beneath a surface of a body of salty water.

Abstract translation: 公开了反渗透海底淡化系统。 反渗透系统可以包括构造成从咸水产生淡水的反渗透站，构造成在反渗透站下游存储淡水的储罐和与反渗透站和储罐流体连接的泵。 反渗透站，储罐和泵可以设置在咸水体的表面下方的一个或多个深度处。

公开(公告)号：US20140224791A1

公开(公告)日：2014-08-14

申请号：US14176122

申请日：2014-02-09

Applicant: newterra ltd.

Inventor： Jason Downey ,  Ardjan Muca

IPC: B65D6/32 ,  B65D88/12

CPC classification number: B65D90/046 ,  B65D1/40 ,  B65D7/38 ,  B65D81/38 ,  B65D88/121 ,  B65D90/022 ,  B65D90/08 ,  B65D90/10 ,  C02F1/00 ,  C02F2201/007

Abstract: A reinforced intermodal container has a corrugated steel wall with an outer side and an inner side. In a length direction the corrugations have alternating inboard and outboard flat panels with adjacent panels linked by web portions. A strengthening structure is welded to the container wall which provides flanges extending generally perpendicularly to the general plane of the wall. The flanges extend between plates welded to the inside faces of the outboard panels and flat strengthening plates welded to the inside faces of the inboard panels. The strengthening structure does not alter the outside width of the container in comparison with the outside width of the unreinforced container. The strengthening structure reduces the inside volume of the container by only a small amount compared with the volume of the unreinforced container.

Abstract translation: 一个加强联合集装箱有一个外侧和内侧的波纹钢壁。 在长度方向上，波纹具有交替的内侧和外侧平板，相邻的面板通过腹板部分连接。 将强化结构焊接到容器壁上，该容器壁提供大致垂直于壁的一般平面延伸的凸缘。 凸缘在焊接到外侧板的内表面的板和焊接到内侧板的内表面的扁平加强板之间延伸。 与未加强容器的外侧宽度相比，加强结构不会改变容器的外部宽度。 与未加强的容器的体积相比，加强结构将容器的内部容积减少了少量。

公开(公告)号：US20140202849A1

公开(公告)日：2014-07-24

申请号：US13748533

申请日：2013-01-23

Applicant: Carl Halterman

Inventor： Carl Halterman

IPC: C02F1/461

CPC classification number: C02F1/4618 ,  C02F1/46104 ,  C02F2201/007 ,  C02F2201/46115 ,  C02F2201/4617

Abstract: An electrolyzed water processor chamber with an anodic chamber having an anode plate held in an anode tray, and a cathodic chamber having a cathode plate held within a cathode tray. The plates are charged by an electrical current, to separate an incoming water stream into its electromagnetically ionized alkaline and acidic components, across an ion exchange membrane sandwiched between the anode and cathode plate trays. The trays can include sets of ducts and cavities, so that when the trays are stacked together, with the cavities aligning to form plenums for the routing of water between the trays. The trays stack as modular units, so that any multiple of the anodic and cathodic tray pairs, with their plates and sandwiched membrane, can be stacked together and function as a combined processor chamber, with end caps mounted on the top-most and bottom-most plate trays.

Abstract translation: 一种具有阳极室的电解水处理器室，阳极板保持在阳极托盘中，阴极室具有保持在阴极托盘内的阴极板。 板通过电流充电，以将进入的水流分离成其电磁离子化的碱性和酸性组分，穿过夹在阳极板和阴极板托盘之间的离子交换膜。 托盘可以包括一组管道和空腔，使得当托盘堆叠在一起时，空腔对齐以形成用于在托盘之间布置水的集气室。 托盘堆叠为模块单元，使得任何多个阳极和阴极托盘对以及其板和夹层膜可以堆叠在一起并用作组合的处理器室，端盖安装在顶部和底部， 大多数板托盘。

公开(公告)号：US08747764B1

公开(公告)日：2014-06-10

申请号：US12749342

申请日：2010-03-29

Applicant: Corey A. Burchman ,  Steven D. Reinitz ,  Kathryn E. Boucher ,  Renee N. Cottle

Inventor： Corey A. Burchman ,  Steven D. Reinitz ,  Kathryn E. Boucher ,  Renee N. Cottle

IPC: C02F1/32 ,  C02F1/48

CPC classification number: A61L2/10 ,  A61L2/0047 ,  C02F1/325 ,  C02F2103/026 ,  C02F2201/004 ,  C02F2201/007 ,  C02F2201/3223 ,  C02F2201/328 ,  C02F2301/026 ,  C02F2303/04

Abstract: An inline intravenous (IV) fluid sterilization system can be located within directly upstream of the patient's access point, downstream of any breach points, so as to ensure fluid sterility. The chamber space between the walls is accessed by a fluid inlet port and a fluid outlet port between which the fluid flows. The inlet port is connected to a conduit/tubing from the fluid source and the outlet port is interconnected with a conduit/tubing that is free of breach points and interconnects to the patient access point. The inner wall allows for transmission of UV light into the fluid space. The walls define a space therebetween that is relatively small radially, allowing for a sufficient flow rate, but providing a large surface area and small fluid depth for exposure to the UV light. The UV light is provided by an elongated lamp within a cavity of the inner wall.

Abstract translation: 在线静脉注射（IV）流体灭菌系统可以位于患者接入点的上游，任何泄漏点的下游，以确保流体的无菌性。 壁之间的腔室空间由流体入口和流体在其间流动的流体出口端口进入。 入口端口连接到来自流体源的导管/管道，并且出口端口与没有泄漏点的导管/管道相互连接并且与患者接入点互连。 内壁允许将紫外光透射到流体空间中。 这些壁在其间限定了径向相对较小的空间，允许足够的流速，但为了暴露于紫外光而提供较大的表面积和较小的流体深度。 UV光由内壁的空腔内的细长灯提供。

公开(公告)号：US20140124378A1

公开(公告)日：2014-05-08

申请号：US14154579

申请日：2014-01-14

Applicant: MIOX Corporation

Inventor： William J. Stewart ,  Matthew R. Santillanes ,  Kevin Schwarz ,  Justin Sanchez ,  Geofrey C. Showalter ,  Kyle Lee

IPC: C25B15/02 ,  C25B9/18

CPC classification number: C25F1/00 ,  C02F1/006 ,  C02F1/008 ,  C02F1/4674 ,  C02F2001/46119 ,  C02F2001/46128 ,  C02F2001/46185 ,  C02F2201/007 ,  C02F2201/4611 ,  C02F2201/4613 ,  C02F2201/46135 ,  C02F2201/4614 ,  C02F2201/46145 ,  C02F2201/4615 ,  C02F2201/4616 ,  C02F2209/02 ,  C02F2209/03 ,  C02F2209/05 ,  C02F2209/42 ,  C02F2303/22 ,  C25B1/14 ,  C25B1/26 ,  C25B9/063 ,  C25B9/18 ,  C25B15/02 ,  C25B15/08

Abstract: Method and apparatus for a low maintenance, high reliability on-site electrolytic generator incorporating automatic cell monitoring for contaminant film buildup, as well as automatically removing or cleaning the contaminant film. This method and apparatus preferably does not require human intervention to clean. For high current density cells, cleaning is preferably performed by reversing the polarity of the electrodes and applying a lower current density to the electrodes, preferably by adjusting the salinity or brine concentration of the electrolyte while keeping the voltage constant. Electrolyte flow preferably comprises water and brine flows which are preferably separately monitored and automatically adjusted. For bipolar cells, flow between modules arranged in parallel is preferably approximately equally distributed between modules and between intermediate electrodes within each module.

Abstract translation: 用于低维护，高可靠性的现场电解发生器的方法和装置，其包括用于污染物膜累积的自动细胞监测，以及自动去除或清洁污染物膜。 该方法和装置优选不需要人工干预来清洁。 对于高电流密度电池，优选通过使电极的极性反转并且向电极施加较低的电流密度来进行清洁，优选通过调节电解质的盐度或盐水浓度同时保持电压恒定。 电解质流优选地包括水和盐水流，其优选地被单独监测并自动调节。 对于双极电池，并联布置的模块之间的流动优选地近似均匀地分布在模块之间和每个模块内的中间电极之间。

公开(公告)号：US20140110330A1

公开(公告)日：2014-04-24

申请号：US14122682

申请日：2012-05-30

Applicant: Tsutomu Sasaki ,  Satoshi Sasaki

Inventor： Tsutomu Sasaki ,  Satoshi Sasaki

IPC: B01D29/66 ,  B01D29/60 ,  B01D29/52

CPC classification number: B01D29/668 ,  B01D29/52 ,  B01D29/60 ,  C02F1/001 ,  C02F2201/005 ,  C02F2201/007 ,  C02F2303/16

Abstract: Provided is a filtration device with a plurality of filters that can be backwashed with purified water with a simple operation. The filtration device 1 switches between a water purification mode, a first backwashing mode, and a second backwashing mode, depending on a pivot position of a valve 6. During the first backwashing mode, while a tap water inlet 51 is in communication with a second tap water passage port 53, first and second purified water passage ports 54, 55 are blocked from communication with a purified water outlet 56, so that purified water from a second filter 3 flows backward through a first filter 2 and is discharged as drain water from a drain water outlet 57. During the second backwashing mode, while the tap water inlet 51 is in communication with a first tap water passage port 52, first and second purified water passage ports 53, 54 are blocked from communication with the purified water outlet 56, so that purified water from the first filter 2 flows backward through the second filter 3 and is discharged as drain water from the drain water outlet 57.

Abstract translation: 提供了具有多个过滤器的过滤装置，其可以用简单的操作用净化水进行反冲洗。 过滤装置1根据阀6的枢转位置在水净化模式，第一回洗模式和第二回洗模式之间切换。在第一回洗模式期间，当自来水入口51与第二反洗 自来水通道端口53，第一和第二净化水通道端口54,55与净化水出口56阻止连通，使得来自第二过滤器3的净化水通过第一过滤器2向后流动，并作为排水从第 排水口57.在第二回洗模式期间，当自来水入口51与第一自来水通道端口52连通时，第一和第二净化水通道端口53,54被阻止与净化水出口56连通 ，使得来自第一过滤器2的净化水向后流过第二过滤器3，并且作为排水从排水出口57排出。

公开(公告)号：US20140086565A1

公开(公告)日：2014-03-27

申请号：US14032283

申请日：2013-09-20

Applicant: Access Business Group International LLC

Inventor： Matthew J. Lilley ,  Michael E. Miles ,  Terry L. Lautzenheiser ,  Kevin G. King ,  Rick G. Good ,  Jeffrey A. Shumate ,  Ryan Millhouse ,  Karen J. VanderKooi

IPC: F24H1/00 ,  B08B9/08

CPC classification number: B67D1/0014 ,  B08B9/08 ,  B67D1/07 ,  B67D1/0895 ,  B67D1/10 ,  B67D1/1202 ,  B67D2001/075 ,  B67D2210/00015 ,  B67D2210/00026 ,  B67D2210/00099 ,  C02F1/02 ,  C02F1/32 ,  C02F9/005 ,  C02F2201/007 ,  C02F2301/043 ,  C02F2303/14 ,  F24H1/0018

Abstract: A water heating system is provided. The water heating system includes an inlet connectable to a supply of untreated water, supply and return lines connectable to a point-of-use water treatment system, and an output for dispensing a supply of treated and optionally heated water. An internal heating element is adapted to heat the treated water to one of a plurality of pre-selected temperature settings. Temperature control can be achieved by cycling the power applied to the heating element and/or controlling the flow rate of treated water through the heating element. The water heating system includes additional improvements in electrical compatibility, energy consumption, and remote failure detection.

Abstract translation: 提供加热系统。 水加热系统包括可连接到未处理水源的入口，可连接到使用点的水处理系统的供应和返回管线以及用于分配经处理和可选加热的水的供应的输出。 内部加热元件适于将经处理的水加热到多个预选温度设置中的一个。 可以通过循环施加到加热元件的功率和/或控制通过加热元件的处理水的流量来实现温度控制。 水加热系统包括电气兼容性，能量消耗和远程故障检测方面的额外改进。

公开(公告)号：US20130319922A1

公开(公告)日：2013-12-05

申请号：US13900030

申请日：2013-05-22

Applicant: Ricardo Augusto FITTIPALDI DIAS

Inventor： Ricardo Augusto FITTIPALDI DIAS

IPC: C02F9/00

CPC classification number: C02F9/005 ,  C02F1/004 ,  C02F1/283 ,  C02F1/32 ,  C02F1/444 ,  C02F1/76 ,  C02F9/00 ,  C02F2201/007 ,  C02F2201/008 ,  C02F2201/009 ,  C02F2209/005 ,  Y02A20/156 ,  Y02A20/211 ,  Y02A20/212

Abstract: Compact and mobile equipment and filtering system for potabilization of polluted water having a device and system for treating, disinfecting and potabilizing polluted water, employed as a water treatment station; the potable water stored in a service tank, maintaining the water for immediate use or for backwashing.

Abstract translation: 用于污水处理的紧凑型移动设备和过滤系统，其具有用作处理，消毒和污染水的装置和系统，用作水处理站; 储存在维修罐中的饮用水，保持水即时使用或进行反冲洗。

公开(公告)号：US20130270183A1

公开(公告)日：2013-10-17

申请号：US13811380

申请日：2011-07-20

Applicant: Jason Craig Snydmiller ,  Stuart Allan Snydmiller

Inventor： Jason Craig Snydmiller ,  Stuart Allan Snydmiller

IPC: B01D36/00

CPC classification number: B01D36/00 ,  B01D17/0214 ,  B01D21/0003 ,  B01D21/32 ,  B01D2221/04 ,  B01D2221/08 ,  C02F1/24 ,  C02F1/385 ,  C02F1/40 ,  C02F1/56 ,  C02F9/00 ,  C02F11/002 ,  C02F2101/32 ,  C02F2201/007 ,  C02F2209/006

Abstract: A system, components of the system and methods for processing, combinations of hydrocarbons, water, solids and contaminants, to separate extract, recover, filter and treat the constituent elements to enable the recovery of valuable hydrocarbons, the treatment of solids for environmentally sustainable discharge, the filtration and treatment of water for reuse, or environmentally sustainable discharge, and the extraction of contaminants. The integrated method and system incorporates alternative processing modes, each of which is optimized for the intake and processing of a materials stream which is predominately solids, or predominately water or predominately hydrocarbons, respectively. The system can dynamically adjust to accommodate variations in the composition of the intake materials stream in any particular mode. The system can be implemented in a portable, modular configuration which is cost effective, energy efficient and scalable to enable processing of any volume of materials.

Abstract translation: 系统，系统的组成部分和处理方法，碳氢化合物，水，固体和污染物的组合，以分离提取，回收，过滤和处理组成元素，以使回收有价值的烃类，处理固体以实现环境可持续排放 ，过滤和处理用于再利用的水，或环境可持续排放，以及提取污染物。 综合方法和系统包括替代的处理模式，其中的每一种都被分别优化用于主要是固体，或主要是水或主要是烃的材料流的摄取和加工。 该系统可以动态地调整以适应任何特定模式下进气材料流的组成的变化。 该系统可以以便携式的模块化配置来实现，其具有成本效益，能量效率和可扩展性，以能够处理任何体积的材料。

公开(公告)号：US20130206695A1

公开(公告)日：2013-08-15

申请号：US13881205

申请日：2010-10-26

Applicant: Youqing Li ,  Jingbo An ,  Qiyuan Wang ,  Yucheng Li

Inventor： Youqing Li ,  Jingbo An ,  Qiyuan Wang ,  Yucheng Li

IPC: B01D65/00 ,  C02F1/44

CPC classification number: B01D65/003 ,  B01D63/06 ,  B01D63/12 ,  B01D2313/13 ,  B01D2313/54 ,  B01D2317/04 ,  C02F1/44 ,  C02F2201/004 ,  C02F2201/007

Abstract: The present invention discloses a combination unit and method of multiple membrane shells. The combination unit of multiple membrane shells is formed by bundling multiple membrane shells in parallel, wherein the raw water port and the concentrated water port of each of the membrane shells are respectively connected and sealed with the raw water port and the concentrated water port of the adjacent membrane shells to form the shared raw water port and the shared concentrated water port which are respectively connected with the raw water pipeline and the concentrated water pipeline. Since each of the combination units of multiple membrane shells is provided with the shared raw water port and the shared concentrated water port, it is adequate to finish the assembly of the shared raw water port with the pipeline and the assembly of the shared concentrated water port with the pipeline in the engineering installation. The combination unit of multiple membrane shells can be placed horizontally or vertically. By adopting the technology of the combination unit of multiple membrane shells, there does not need a large number of clamps, the number of sealed points is decreased, the engineering cost is reduced, the hidden seepage danger is lowered, the engineering installation workload is lessened, the occupied area of the apparatus is saved, and the maintenance and the service are convenient.

Abstract translation: 本发明公开了一种多层膜壳的组合单元和方法。 多个膜壳的组合单元通过平行地捆绑多个膜壳而形成，其中每个膜壳的原水口和浓缩水口分别用原水口和浓缩水口连接和密封 相邻的膜壳形成分别与原水管道和浓缩水管道连接的共用原水口和共用浓水口。 由于多个膜壳的组合单元分别设置有共用的原水口和共用的集中水口，所以可以完成共用原水口与管道的组装和共用集中水口的组装 管道在工程安装。 多个膜壳的组合单元可以水平或垂直放置。 采用多层膜组合单元技术，不需要大量夹具，密封点数量减少，工程成本降低，隐藏渗漏危险降低，工程安装工作量减少 节省了设备的占用面积，维护和维修方便。