公开(公告)号：US4698153A

公开(公告)日：1987-10-06

申请号：US699437

申请日：1985-02-07

Applicant: Harumi Matsuzaki ,  Masayoshi Kubota ,  Katsuya Ebara ,  Sankichi Takahashi ,  Minoru Kuroiwa

Inventor： Harumi Matsuzaki ,  Masayoshi Kubota ,  Katsuya Ebara ,  Sankichi Takahashi ,  Minoru Kuroiwa

IPC: C02F1/44 ,  B01D11/02 ,  B01D61/58 ,  B01D67/00 ,  B01J41/14 ,  B01J47/06 ,  B01J47/14 ,  B01J49/00 ,  C02F1/00 ,  C02F1/04 ,  C02F1/42 ,  C08J5/20

CPC classification number: B01D61/18 ,  B01D11/0203 ,  B01D61/08 ,  B01D61/58 ,  B01J49/0078 ,  C02F1/42 ,  B01D2323/225 ,  B01D61/025 ,  B01D61/145 ,  Y10S210/90

Abstract: Projections are removed from the surfaces of ion exchange resin particles by contacting the resin particles with a liquefied gas or supercritical gas in advance. The ion exchange resin thus prepared can remove ions from raw water so thoroughly that the water quality can be improved to that of ultra-pure water.

Abstract translation: 预先将树脂颗粒与液化气体或超临界气体接触，从离子交换树脂颗粒的表面除去突出物。 如此制备的离子交换树脂可以从原水中去除离子，使得水质可以提高到超纯水的水质。

公开(公告)号：US3890224A

公开(公告)日：1975-06-17

申请号：US13867971

申请日：1971-04-29

Applicant: COMMW SCIENT IND RES ORG

Inventor： WEISS DONALD ERIC ,  BATTAERD HENDRIK ADRIAAN JACOB

IPC: B01D11/04 ,  B01D15/00 ,  B01D17/02 ,  B01D21/00 ,  B01D35/06 ,  B01D37/02 ,  B01J20/00 ,  B01J47/06 ,  B01J49/00 ,  B03B1/04 ,  B03C1/00 ,  B03C1/01 ,  B03C1/02 ,  C02F1/46 ,  C02F1/52 ,  C02F1/68 ,  C02B9/02 ,  E02B15/04

CPC classification number: C02F1/681 ,  B01D11/0492 ,  B01D17/0202 ,  B01D17/04 ,  B01D35/06 ,  B01D37/02 ,  B01J20/00 ,  B01J47/06 ,  B01J49/45 ,  B03B1/04 ,  B03C1/01 ,  C22B3/24 ,  Y02P10/234

Abstract: A method of phase separation using ferromagnetic materials. A mixture of phases is treated with particles or granules of ferromagnetic material so that one of the phases is preferentially absorbed or collected onto or into the particles or granules. The particles or granules of the ferromagnetic material together with the absorbed or collected phase may then be recovered from the remainder of the mixture using magnetic means.

Abstract translation: 使用铁磁材料的相分离方法。 用铁磁材料的颗粒或颗粒处理相的混合物，使得一个相优先被吸收或收集到颗粒或颗粒上或其上。 铁磁材料的颗粒或颗粒与吸收或收集的相可以使用磁性方法从混合物的其余部分中回收。

公开(公告)号：US3482701A

公开(公告)日：1969-12-09

申请号：US3482701D

申请日：1968-02-28

Applicant: SOLOMON ZAROMB

Inventor： ZAROMB SOLOMON

IPC: B01J47/04 ,  B01J47/06 ,  C02F1/00 ,  B01D29/24 ,  B01D29/08

CPC classification number: B01D61/025 ,  B01J47/04 ,  B01J47/06 ,  C02F1/001 ,  C02F1/42 ,  C02F2103/08 ,  Y02A20/131

公开(公告)号：US2701791A

公开(公告)日：1955-02-08

申请号：US20049050

申请日：1950-12-12

Applicant: NAT ALUMINATE CORP

Inventor： LINDSAY FREDERICK K

IPC: B01J47/06

CPC classification number: B01J47/06

公开(公告)号：US11655409B2

公开(公告)日：2023-05-23

申请号：US17030128

申请日：2020-09-23

Applicant: Saudi Arabian Oil Company

Inventor： Fahd Ibrahim AlGhunaimi ,  Young Chul Choi ,  Regis Didier Alain Vilagines ,  Khalid A. Al-Harbi

IPC: C09K8/05 ,  B01J49/57 ,  B01J41/04 ,  B01J41/12 ,  B01J47/06 ,  C02F1/42 ,  E21B21/06 ,  E21B43/34 ,  C02F103/10

CPC classification number: C09K8/05 ,  B01J41/04 ,  B01J41/12 ,  B01J47/06 ,  B01J49/57 ,  C02F1/42 ,  E21B21/06 ,  E21B43/34 ,  C02F2001/422 ,  C02F2103/10 ,  C02F2303/16

Abstract: A system and method for generating water concentrated in calcium bromide from produced water, to provide for drilling fluid having the calcium bromide. The technique includes flowing the produced water through a bed of ion-exchange resin to sorb bromide ions from the produced water onto the ion-exchange resin, and then regenerating the ion-exchange resin to desorb the bromide ions for combination with calcium ions to acquire an aqueous solution with calcium and bromide.

公开(公告)号：US11638916B1

公开(公告)日：2023-05-02

申请号：US17959086

申请日：2022-10-03

Applicant: Clayton McMonigle Jones

Inventor： Clayton McMonigle Jones

IPC: B01J47/06 ,  B01J39/04 ,  B01J39/02 ,  B01J39/20 ,  B01J39/10 ,  C02F1/42 ,  C02F1/48 ,  C02F1/00 ,  C01D15/00 ,  C02F101/10

Abstract: Improvements in a lithium-ion extraction apparatus to extract lithium-ion from water and more specifically salt or brine water. The extraction of lithium-ion utilizing electromagnetic separation into a sorbent shortens the extraction time and minimizes environmental impact. The sorbent is typically a polymer that is in solution with the brine where direct contact with the brine water with the sorbent extracts lithium-ions. The fixed and magnetic field magnetic field increases the absorption in the sorbent by energizing the sorbent. The sorbent is in the form of porous beads that have selective lithium-ion affinity in a continuous solid-phase extraction process. The lithium-ion extraction apparatus includes fluid flow, agitation, pressure, and temperature control of the brine solution. The flow rate alters and controls the dwell time that the brine solution is in proximity to the electromagnets.

公开(公告)号：US10882965B2

公开(公告)日：2021-01-05

申请号：US15759866

申请日：2016-09-14

Applicant: Evoqua.Water Technologies, LLC

Inventor： Marty Wilkes

IPC: C08J3/28 ,  B01J47/04 ,  B01J47/06 ,  B01J41/05 ,  B01J39/05 ,  B01J41/12 ,  C02F1/42 ,  B01J47/016 ,  B01J39/18 ,  C02F101/10 ,  C02F101/12 ,  C02F103/02 ,  C02F103/34

Abstract: A method of producing treated ion exchange resin material includes exposing an enclosed vessel containing ion exchange resin and a pre-treatment solution to high energy radiation. The treated ion exchange resin material has reduced organic impurities or total organic carbon (TOC).

公开(公告)号：US10581092B2

公开(公告)日：2020-03-03

申请号：US15638754

申请日：2017-06-30

Applicant: TOYODA GOSEI CO., LTD.

Inventor： Naoki Yamaguchi ,  Tatsuya Ojio ,  Yoshiki Nakamura ,  Takeshi Hattori

IPC: H01M8/04029 ,  B01J47/06 ,  H01M8/0267

Abstract: An ion exchanger for a cooling system of a fuel cell system includes: a communicating pipe part with the two ends thereof configured respectively to be connectable to predetermined piping arranged in the cooling system, and including a substantially linear shaped first flow path; and a storage case including a second flow path configured such that, when a part of the coolant introduced into the communicating pipe part branches from the coolant of the communicating pipe part and flows toward the second flow path, such partial coolant, after introduced into the second flow path, is allowed to flow therethrough and join again the remaining coolant of the communicating pipe part, while ion exchange resin is stored in the second flow path, wherein an introduction device for introducing the coolant into the second flow path is arranged in the inside of the communicating pipe part.

公开(公告)号：US10413897B2

公开(公告)日：2019-09-17

申请号：US15647737

申请日：2017-07-12

Applicant: TOYOTA BOSHOKU KABUSHIKI KAISHA

Inventor： Junko Ohira

IPC: B01J47/06 ,  F28D1/04 ,  H01M8/04029 ,  F28F19/00 ,  H01M8/04044 ,  B01J47/022 ,  F28D21/00

Abstract: An ion exchanger includes a case and an ion exchange resin. The case includes an inflow hole into which a refrigerant flows and an outflow hole out of which the refrigerant flows. The ion exchange resin is arranged in the case to remove ions from the refrigerant. The inflow hole and the outflow hole are located at a lower end of the case. The case accommodates a tube extending in a vertical direction and connecting to the outflow hole. The ion exchange resin is located between an inner wall of the case and an outer wall of the tube. The inflow hole is formed so that the refrigerant flows through the inflow hole into the case and evenly into the ion exchange resin from a lower end surface of the ion exchange resin.

公开(公告)号：US20180013155A1

公开(公告)日：2018-01-11

申请号：US15638754

申请日：2017-06-30

Applicant: TOYODA GOSEI CO., LTD.

Inventor： Naoki YAMAGUCHI ,  Tatsuya OJIO ,  Yoshiki NAKAMURA ,  Takeshi HATTORI

IPC: B01J47/06

Abstract: An ion exchanger for a cooling system of a fuel cell system includes: a communicating pipe part with the two ends thereof configured respectively to he connectable to predetermined piping arranged in the cooling system, and including a substantially linear shaped first flow path; and a storage case including a second flow path configured such that, when a part of the coolant introduced into the communicating pipe part branches from the coolant of the communicating pipe part and flows toward the second flow path, such partial coolant, after introduced into the second flow path, is allowed to flow therethrough and join again the remaining coolant of the communicating pipe part, while ion exchange resin is stored in the second flow path, wherein an introduction device for introducing the coolant into the second flow path is arranged in the inside of the communicating pipe part.