Fuel cell stack
    6.
    发明申请
    Fuel cell stack 审中-公开
    燃料电池堆

    公开(公告)号:US20060177723A1

    公开(公告)日:2006-08-10

    申请号:US11345837

    申请日:2006-02-01

    IPC分类号: H01M8/02 H01M8/24 H01M8/10

    摘要: A stacked body is formed by stacking a plurality of power generation cells in a stacking direction. End power generation cells are provided at opposite ends of the stacked body in the stacking direction. Each of the power generation cells includes a membrane electrode assembly and first and second metal separators sandwiching the membrane electrode assembly therebetween. The end power generation cells include first outer separators and second outer separators. The first outer separators are more highly hydrophilic in comparison with the first and second metal separators of the power generation cells.

    摘要翻译: 通过在层叠方向堆叠多个发电电池而形成层叠体。 在层叠体的堆叠方向的相对端部设置有端部发电电池。 每个发电单元包括膜电极组件和将膜电极组件夹在其间的第一和第二金属分离器。 末端发电单元包括第一外隔板和第二外隔板。 与发电单元的第一和第二金属分离器相比,第一外部隔板具有更高的亲水性。

    Fuel cell assembly operating method and fuel cell system
    7.
    发明授权
    Fuel cell assembly operating method and fuel cell system 有权
    燃料电池组装操作方法和燃料电池系统

    公开(公告)号:US07871731B2

    公开(公告)日:2011-01-18

    申请号:US11248449

    申请日:2005-10-12

    IPC分类号: H01M8/04 H01M8/10

    摘要: A method of operating a fuel cell assembly and a fuel cell system use a simple construction to restrain deterioration of power generating performance of a fuel cell assembly at a startup in a subfreezing environment. If an ignition switch is turned off is STEP 1, a control unit determines in STEP 3 whether the temperature of a fuel cell assembly (the internal temperature of the fuel cell assembly) is lower than a predetermined temperature, which is higher than the temperature at which the water produced during power generation freezes. If the internal temperature of the fuel cell assembly is the predetermined temperature or higher, then the processing proceeds to STEP 4 wherein a power generating condition is adjusted to cause the internal temperature of the fuel cell assembly to rise. In STEP 5, an alarm device is actuated. The power generation is continued until the internal temperature of the fuel cell assembly reaches the predetermined temperature or higher, and then the power generation is stopped in STEP 8.

    摘要翻译: 操作燃料电池组件和燃料电池系统的方法使用简单的结构来抑制燃料电池组件在低温环境中的启动时的发电性能的劣化。 如果点火开关关闭是步骤1,则控制单元在步骤3中确定燃料电池组件的温度(燃料电池组件的内部温度)是否低于预定温度,该预定温度高于 发电时产生的水冻结。 如果燃料电池组件的内部温度为预定温度或更高,则处理进行到步骤4,其中调节发电状态以使燃料电池组件的内部温度升高。 在步骤5中,启动报警装置。 继续发电直到燃料电池组件的内部温度达到预定温度或更高,然后在步骤8中停止发电。

    Fuel cell
    8.
    发明申请
    Fuel cell 有权
    燃料电池

    公开(公告)号:US20060216572A1

    公开(公告)日:2006-09-28

    申请号:US11388431

    申请日:2006-03-24

    IPC分类号: H01M8/02 H01M4/94

    摘要: An oxygen-containing gas flow field is formed on a surface of a first metal separator. The oxygen-containing gas flow field is connected between an oxygen-containing gas supply passage and an oxygen-containing gas discharge passage. The oxygen-containing gas flow field comprises oxygen-containing gas flow grooves, and ends of the oxygen-containing gas flow grooves are extended outwardly beyond ends of electrode catalyst layer of a membrane electrode assembly, and connected to an inlet buffer and an outlet buffer. When the purging process is performed at the time of stopping operation of the fuel cell, the purging air supplied to the oxygen-containing gas flow field discharges water retained in the electrode catalyst layers from the ends to the outlet buffer.

    摘要翻译: 在第一金属分离器的表面上形成含氧气体流场。 含氧气体流场连接在含氧气体供给通道和含氧气体排出通道之间。 含氧气体流场包括含氧气体流动槽,并且含氧气体流动槽的端部向外延伸超过膜电极组件的电极催化剂层的端部,并且连接到入口缓冲器和出口缓冲器 。 当在燃料电池停止运行时执行清洗处理时,供给到含氧气体流场的净化空气从端部向出口缓冲器排出保留在电极催化剂层中的水。

    Fuel cell assembly operating method and fuel cell system
    9.
    发明申请
    Fuel cell assembly operating method and fuel cell system 有权
    燃料电池组装操作方法和燃料电池系统

    公开(公告)号:US20060083968A1

    公开(公告)日:2006-04-20

    申请号:US11248449

    申请日:2005-10-12

    IPC分类号: H01M8/04 H01M8/10

    摘要: A method of operating a fuel cell assembly and a fuel cell system use a simple construction to restrain deterioration of power generating performance of a fuel cell assembly at a startup in a subfreezing environment. If an ignition switch is turned off is STEP 1, a control unit determines in STEP 3 whether the temperature of a fuel cell assembly (the internal temperature of the fuel cell assembly) is lower than a predetermined temperature, which is higher than the temperature at which the water produced during power generation freezes. If the internal temperature of the fuel cell assembly is the predetermined temperature or higher, then the processing proceeds to STEP 4 wherein a power generating condition is adjusted to cause the internal temperature of the fuel cell assembly to rise. In STEP 5, an alarm device is actuated. The power generation is continued until the internal temperature of the fuel cell assembly reaches the predetermined temperature or higher, and then the power generation is stopped in STEP 8.

    摘要翻译: 操作燃料电池组件和燃料电池系统的方法使用简单的结构来抑制燃料电池组件在低温环境中的启动时的发电性能的劣化。 如果点火开关关闭是步骤1,则控制单元在步骤3中确定燃料电池组件的温度(燃料电池组件的内部温度)是否低于预定温度,该预定温度高于 发电时产生的水冻结。 如果燃料电池组件的内部温度为预定温度或更高,则处理进行到步骤4,其中调节发电状态以使燃料电池组件的内部温度升高。 在步骤5中,启动报警装置。 继续发电直到燃料电池组件的内部温度达到预定温度或更高,然后在步骤8中停止发电。

    Fuel cell
    10.
    发明授权
    Fuel cell 有权
    燃料电池

    公开(公告)号:US07901826B2

    公开(公告)日:2011-03-08

    申请号:US11388431

    申请日:2006-03-24

    IPC分类号: H01M2/38 H01M2/40 H01M28/24

    摘要: An oxygen-containing gas flow field is formed on a surface of a first metal separator. The oxygen-containing gas flow field is connected between an oxygen-containing gas supply passage and an oxygen-containing gas discharge passage. The oxygen-containing gas flow field comprises oxygen-containing gas flow grooves, and ends of the oxygen-containing gas flow grooves are extended outwardly beyond ends of electrode catalyst layer of a membrane electrode assembly, and connected to an inlet buffer and an outlet buffer. When the purging process is performed at the time of stopping operation of the fuel cell, the purging air supplied to the oxygen-containing gas flow field discharges water retained in the electrode catalyst layers from the ends to the outlet buffer.

    摘要翻译: 在第一金属分离器的表面上形成含氧气体流场。 含氧气体流场连接在含氧气体供给通道和含氧气体排出通道之间。 含氧气体流场包括含氧气体流动槽,并且含氧气体流动槽的端部向外延伸超过膜电极组件的电极催化剂层的端部,并且连接到入口缓冲器和出口缓冲器 。 当在燃料电池停止运行时执行清洗处理时,供给到含氧气体流场的净化空气从端部向出口缓冲器排出保留在电极催化剂层中的水。