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    • 1. 发明授权
    • Electrochemical device
    • 电化学装置
    • US09194048B2
    • 2015-11-24
    • US13636520
    • 2011-03-17
    • Eiji HaryuMasanori OkabeKoji NakazawaKenji Taruya
    • Eiji HaryuMasanori OkabeKoji NakazawaKenji Taruya
    • C25B1/10C25B1/02C25B9/10C25B9/00C25B1/04H01M8/02
    • C25B1/04C25B1/10C25B9/00C25B9/10H01M8/0273Y02E60/366
    • In a unit cell that forms a water electrolysis device, which is an electrochemical device, an electrolyte membrane/electrode structure is sandwiched between an anode-side separator and a cathode-side separator. A load-applying mechanism is disposed between a cathode-side feeder and the cathode-side separator, while an anode-side feeder is set with a smaller contact area range than the aforementioned cathode-side feeder. The anode-side feeder and the cathode-side feeder are set with a larger contact area range than an anode electrode catalyst layer and a cathode electrode catalyst layer, and a contact surface that touches a solid polymer electrolyte membrane on the aforementioned anode-side feeder is disposed projecting farther to the side of the aforementioned solid polymer electrolyte membrane than a contact surface on the anode-side separator and a contact surface on a frame member.
    • 在形成作为电化学装置的水电解装置的单电池中,电解质膜/电极结构被夹在阳极侧隔板和阴极侧隔板之间。 负极施加机构设置在阴极侧进料器和阴极侧分离器之间,而阳极侧进料器设置为具有比上述阴极侧进料器更小的接触面积范围。 阳极侧进料器和阴极侧进料器的接触面积范围设定为比阳极电极催化剂层和阴极电极催化剂层大的接触面积,以及接触上述阳极侧供料器上的固体高分子电解质膜的接触面 布置成比阳极侧隔板的接触面和框架构件的接触面更远离上述固体高分子电解质膜的侧面。
    • 5. 发明申请
    • ELECTROCHEMICAL DEVICE
    • 电化学装置
    • US20130015059A1
    • 2013-01-17
    • US13636520
    • 2011-03-17
    • Eiji HaryuMasanori OkabeKoji NakazawaKenji Taruya
    • Eiji HaryuMasanori OkabeKoji NakazawaKenji Taruya
    • C25B9/08
    • C25B1/04C25B1/10C25B9/00C25B9/10H01M8/0273Y02E60/366
    • In a unit cell that forms a water electrolysis device, which is an electrochemical device, an electrolyte membrane/electrode structure is sandwiched between an anode-side separator and a cathode-side separator. A load-applying mechanism is disposed between a cathode-side feeder and the cathode-side separator, while an anode-side feeder is set with a smaller contact area range than the aforementioned cathode-side feeder. The anode-side feeder and the cathode-side feeder are set with a larger contact area range than an anode electrode catalyst layer and a cathode electrode catalyst layer, and a contact surface that touches a solid polymer electrolyte membrane on the aforementioned anode-side feeder is disposed projecting farther to the side of the aforementioned solid polymer electrolyte membrane than a contact surface on the anode-side separator and a contact surface on a frame member.
    • 在形成作为电化学装置的水电解装置的单电池中,电解质膜/电极结构被夹在阳极侧隔板和阴极侧隔板之间。 负极施加机构设置在阴极侧进料器和阴极侧分离器之间,而阳极侧进料器设置为具有比上述阴极侧进料器更小的接触面积范围。 阳极侧进料器和阴极侧进料器的接触面积范围设定为比阳极电极催化剂层和阴极电极催化剂层更大的接触面积,以及接触上述阳极侧供料器上的固体高分子电解质膜的接触面 布置成比阳极侧隔板的接触面和框架构件的接触面更远离上述固体高分子电解质膜的侧面。
    • 6. 发明授权
    • High-pressure water electrolysis apparatus
    • 高压水电解设备
    • US08815063B2
    • 2014-08-26
    • US13240539
    • 2011-09-22
    • Eiji HaryuKoji NakazawaMasanori Okabe
    • Eiji HaryuKoji NakazawaMasanori Okabe
    • C25B1/10C25B9/10
    • C25B1/12C25B9/04C25B9/10C25B9/18Y02E60/366
    • A high-pressure water electrolysis apparatus includes a plurality of unit cells each having an anode separator, a cathode separator, and a membrane electrode assembly which is sandwiched between the anode separator and the cathode separator. The membrane electrode assembly includes a solid polymer electrolyte membrane, and an anode current collector and a cathode current collector which are disposed respectively on opposite sides of the solid polymer electrolyte membrane. An electrically-conductive member is interposed between the cathode separator and disc springs and between a plate member and the cathode current collector so as to integrally extend from a region between the cathode separator and the disc springs to a region between the plate member and the cathode current collector. The electrically-conductive member includes an electrically-conductive path which electrically connects the cathode separator with the cathode current collector.
    • 高压水电解装置包括多个单元电池,每个单电池单元具有阳极隔板,阴极隔板和夹在阳极隔板和阴极隔板之间的膜电极组件。 膜电极组件包括分别设置在固体聚合物电解质膜的相对侧上的固体聚合物电解质膜和阳极集电体和阴极集电体。 在阴极分离器和碟形弹簧之间并且在板件和阴极集电器之间插入一个导电元件,以便从阴极分离器和盘簧之间的区域一体地延伸到板件和阴极之间的区域 集电器 导电构件包括将阴极隔板与阴极集电器电连接的导电路径。
    • 7. 发明授权
    • Water electrolysis system
    • 水电解系统
    • US08961748B2
    • 2015-02-24
    • US13239876
    • 2011-09-22
    • Eiji HaryuKoji NakazawaMasanori Okabe
    • Eiji HaryuKoji NakazawaMasanori Okabe
    • C25B9/00C25B1/04C25B1/00C25B1/08C25B15/08
    • C25B15/08C25B1/08Y02E60/366
    • A water electrolysis system includes a water electrolysis apparatus, a low-pressure gas-liquid separator, a high-pressure gas-liquid separator, water pipe, and a decompression water supply device. The high-pressure gas-liquid separator separates the hydrogen received from a cathode of the water electrolysis apparatus and permeation water that has permeated from the anode. The water pipe connects the high-pressure gas-liquid separator and the low-pressure gas-liquid separator and is used for returning the water from the high-pressure gas-liquid separator to the low-pressure gas-liquid separator. The decompression water supply device is arranged at the water pipe and is to decompress the water discharged from the high-pressure gas-liquid separator.
    • 水电解系统包括水电解装置,低压气液分离器,高压气液分离器,水管和减压水供给装置。 高压气液分离器分离从水电解装置的阴极接收的氢和从阳极透过的渗透水。 水管连接高压气液分离器和低压气液分离器,用于将水从高压气液分离器返回到低压气液分离器。 减压供水装置配置在水管上,对从高压气液分离器排出的水进行减压。
    • 9. 发明申请
    • High-pressure hydrogen production apparatus
    • 高压氢气生产设备
    • US20060254907A1
    • 2006-11-16
    • US11431212
    • 2006-05-10
    • Kenji TaruyaMasanori OkabeKoji Nakazawa
    • Kenji TaruyaMasanori OkabeKoji Nakazawa
    • C25B9/00
    • C25B9/18C25B1/12Y02E60/366
    • The invention provides a high-pressure hydrogen production apparatus for preventing hydrogen gas from leaking toward an anode side and for obtaining excellent electrolytic efficiency. The apparatus includes a single cell having a solid polymer electrolyte membrane, power feeders, separators, and fluid channels provided in respective separators. High-pressure hydrogen gas accompanied by water is obtained in the fluid channel by supplying water to the fluid channel and applying current to each power feeder to electrolyze water. The obtained hydrogen gas and water are subjected to gas-liquid separation in a second compartment of a high-pressure vessel, and hydrogen gas thus separated is used to press a barrier member towards the single cell. The separated water is supplied to the fluid channel through the hydrogen gas guide channel.
    • 本发明提供一种用于防止氢气向阳极侧泄漏并获得优异的电解效率的高压氢气制备装置。 该装置包括具有固体聚合物电解质膜的单电池,供电装置,分离器和设置在各个隔板中的流体通道。 通过向流体通道供水并向每个供电器施加电流以电解水,在流体通道中获得伴随水的高压氢气。 将获得的氢气和水在高压容器的第二室中进行气液分离,并且使用如此分离的氢气将阻挡构件朝向单电池按压。 分离的水通过氢气引导通道供应到流体通道。