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    • 3. 发明申请
    • WATER ELECTROLYSIS SYSTEM
    • 水电解系统
    • US20120103796A1
    • 2012-05-03
    • US13239834
    • 2011-09-22
    • Kenji TARUYAKoji NakazawaHisashi NagaokaDaisuke Kurashina
    • Kenji TARUYAKoji NakazawaHisashi NagaokaDaisuke Kurashina
    • C25B1/08
    • C25B1/12Y02E60/366
    • A water electrolysis system includes a high-pressure water electrolysis apparatus and a gas-liquid separation device. The gas-liquid separation device includes a block member which includes a gas-liquid separation opening and a water-level detection opening. The gas-liquid separation opening and the water-level detection opening extend substantially vertically and includes respective bottom portions which integrally communicate with a discharge pipe. The discharge pipe is disposed at a lower side portion of the block member. The water-level detection opening includes a top portion and a top water-level detection section. The block member further includes an inlet hole in which the hydrogen is introduced from the high-pressure water electrolysis device. The inlet hole is disposed at an upper side portion of the block member. The inlet hole is positioned above the top water-level detection section of the water-level detection opening.
    • 水电解系统包括高压水电解装置和气液分离装置。 气液分离装置包括具有气液分离开口和水位检测用开口部的块部件。 气液分离开口和水位检测开口大致垂直地延伸,并且包括与排出管一体地连通的相应底部。 排出管设置在块体的下侧部。 水位检测开口包括顶部和顶部水位检测部。 块构件还包括从高压水电解装置引入氢的入口孔。 入口孔设置在块构件的上侧部分。 入口孔位于水位检测开口的顶部水位检测部分的上方。
    • 4. 发明授权
    • Water electrolysis system
    • 水电解系统
    • US08663436B2
    • 2014-03-04
    • US13239834
    • 2011-09-22
    • Kenji TaruyaKoji NakazawaHisashi NagaokaDaisuke Kurashina
    • Kenji TaruyaKoji NakazawaHisashi NagaokaDaisuke Kurashina
    • C25B15/00C25B9/00C25B1/04
    • C25B1/12Y02E60/366
    • A water electrolysis system includes a high-pressure water electrolysis apparatus and a gas-liquid separation device. The gas-liquid separation device includes a block member which includes a gas-liquid separation opening and a water-level detection opening. The gas-liquid separation opening and the water-level detection opening extend substantially vertically and includes respective bottom portions which integrally communicate with a discharge pipe. The discharge pipe is disposed at a lower side portion of the block member. The water-level detection opening includes a top portion and a top water-level detection section. The block member further includes an inlet hole in which the hydrogen is introduced from the high-pressure water electrolysis device. The inlet hole is disposed at an upper side portion of the block member. The inlet hole is positioned above the top water-level detection section of the water-level detection opening.
    • 水电解系统包括高压水电解装置和气液分离装置。 气液分离装置包括具有气液分离开口和水位检测用开口部的块部件。 气液分离开口和水位检测开口大致垂直地延伸,并且包括与排出管一体地连通的相应底部。 排出管设置在块体的下侧部。 水位检测开口包括顶部和顶部水位检测部。 块构件还包括从高压水电解装置引入氢的入口孔。 入口孔设置在块构件的上侧部分。 入口孔位于水位检测开口的顶部水位检测部分的上方。
    • 5. 发明授权
    • Water electrolysis system and method for shutting down the same
    • 水电解系统及其关闭方法
    • US08741123B2
    • 2014-06-03
    • US13008916
    • 2011-01-19
    • Jun TakeuchiMasanori OkabeHisashi NagaokaKoji Nakazawa
    • Jun TakeuchiMasanori OkabeHisashi NagaokaKoji Nakazawa
    • C25B1/10
    • C25B15/00C02F2201/46195C25B1/04C25B9/00C25B15/08Y02E60/366
    • A water electrolysis system includes a water electrolysis apparatus including an electrolyte membrane. The electrolyte membrane is provided between an anode and a cathode. The water electrolysis apparatus is configured to generate oxygen on a side of the anode and hydrogen on a side of the cathode at a pressure higher than a pressure of the oxygen through electrolysis of water. A gas-liquid separation apparatus separates unreacted water and produced gas discharged from a water outlet of the water electrolysis apparatus. A water circulation apparatus circulates the water between the water electrolysis apparatus and the gas-liquid separation apparatus. The water circulation apparatus includes a return pipe having an on-off valve and connecting the water outlet and the gas-liquid separation apparatus. A hydrogen exhaust pipe is connected to the return pipe between the water outlet and the on-off value and extends upward from the water electrolysis apparatus.
    • 水电解系统包括具有电解质膜的水电解装置。 电解质膜设置在阳极和阴极之间。 水电解装置被配置为通过电解水在高于氧气压力的压力下在阳极侧产生氧气,并在阴极侧产生氢气。 气液分离装置分离从水电解装置的出水口排出的未反应水和生成气体。 水循环装置在水电解装置与气液分离装置之间循环水。 水循环装置包括具有开关阀并连接出水口和气液分离装置的回流管。 氢排气管在出水口和开 - 关值之间连接到返回管,并从水电解装置向上延伸。
    • 6. 发明申请
    • WATER ELECTROLYSIS SYSTEM AND METHOD FOR SHUTTING DOWN THE SAME
    • 水电解系统及其切割方法
    • US20110198235A1
    • 2011-08-18
    • US13008916
    • 2011-01-19
    • Jun TAKEUCHIMasanori OkabeHisashi NagaokaKoji Nakazawa
    • Jun TAKEUCHIMasanori OkabeHisashi NagaokaKoji Nakazawa
    • C02F1/461C25B9/00
    • C25B15/00C02F2201/46195C25B1/04C25B9/00C25B15/08Y02E60/366
    • A water electrolysis system includes a water electrolysis apparatus including an electrolyte membrane. The electrolyte membrane is provided between an anode and a cathode. The water electrolysis apparatus is configured to generate oxygen on a side of the anode and hydrogen on a side of the cathode at a pressure higher than a pressure of the oxygen through electrolysis of water. A gas-liquid separation apparatus separates unreacted water and produced gas discharged from a water outlet of the water electrolysis apparatus. A water circulation apparatus circulates the water between the water electrolysis apparatus and the gas-liquid separation apparatus. The water circulation apparatus includes a return pipe having an on-off valve and connecting the water outlet and the gas-liquid separation apparatus. A hydrogen exhaust pipe is connected to the return pipe between the water outlet and the on-off value and extends upward from the water electrolysis apparatus.
    • 水电解系统包括具有电解质膜的水电解装置。 电解质膜设置在阳极和阴极之间。 水电解装置被配置为通过电解水在高于氧气压力的压力下在阳极侧产生氧气,并在阴极侧产生氢气。 气液分离装置分离从水电解装置的出水口排出的未反应水和生成气体。 水循环装置在水电解装置与气液分离装置之间循环水。 水循环装置包括具有开关阀并连接出水口和气液分离装置的回流管。 氢排气管在出水口和开 - 关值之间连接到回流管,并从水电解装置向上延伸。
    • 9. 发明授权
    • System for allocating fuel stations to movable bodies
    • 将加油站分配给移动体的系统
    • US07066216B2
    • 2006-06-27
    • US11252431
    • 2005-10-17
    • Kazuhisa SatoHiroyuki AbeJunichi KobayashiToshiaki TakeshitaHisashi NagaokaMasanori Hayashi
    • Kazuhisa SatoHiroyuki AbeJunichi KobayashiToshiaki TakeshitaHisashi NagaokaMasanori Hayashi
    • B65B1/04
    • G06Q30/08
    • A system for allocating fuel stations to movable bodies includes an onboard unit, a station unit and a server. The onboard unit stores and updates information about a movable body. The station unit disposed at a fuel station which supplies fuel to the movable body stores and updates information about the fuel station. The server, which is connected to the onboard unit and the station unit through networks, allocates certain fuel stations to the movable body which requires fueling, based on the information about the movable body and the fuel station. When a difference of distance resulting from a subtraction, a movable distance minus a station distance, is smaller than a certain threshold, the server determines a necessity of supplying fuel to the movable body, allocating a fuel station which keeps an amount of stored fuel necessary for fuelling the movable body.
    • 用于将加油站分配给移动体的系统包括车载单元,站单元和服务器。 车载单元存储和更新关于可移动体的信息。 设置在向可动体供给燃料的燃料站的站单元存储并更新关于燃料站的信息。 基于关于可移动体和燃料站的信息,通过网络连接到车载单元和站单元的服务器将特定加油站分配给需要加油的可移动体。 当由减法产生的距离差,可移动距离减去站距离小于某个阈值时,服务器确定需要向可移动体供应燃料,分配保持需要的储存燃料量的燃料站 用于为可动体供油。