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    • 3. 发明授权
    • Fuel cell disassembly method and fuel cell
    • 燃料电池拆卸方法和燃料电池
    • US07758983B2
    • 2010-07-20
    • US10584342
    • 2004-12-24
    • Hiroshi SuzukiGo TejimaTomoaki NakashimaRyo Akagawa
    • Hiroshi SuzukiGo TejimaTomoaki NakashimaRyo Akagawa
    • H01M8/00H01M2/08
    • H01M8/2457H01M8/008H01M8/0271H01M8/241H01M8/2465H01M8/2483Y02W30/86Y10T29/49815
    • A process of disassembling a fuel cell 10 supplies a fluid to both a fuel gas conduit 6g and an oxidizing gas conduit 7g. Since outlets of the respective gas conduits 6g and 7g are shielded, the internal pressure or in-passage pressure of the respective gas conduits 6g and 7g gradually rises and eventually exceeds a specific in-passage pressure level for power generation of the fuel cell 10. The high in-passage pressure expands a gas diffusion electrode 4b of a membrane electrode assembly (MEA) 2 and a separator 6, which define the fuel gas conduit 6g, in opposite directions to make a clearance between the gas diffusion electrode 4b and the separator 6. Similarly the high in-passage pressure expands a gas diffusion electrode 5b of the MEA 2 and a separator 7, which define the oxidizing gas conduit 7g, in opposite directions to make a clearance between the gas diffusion electrode 5b and the separator 7. The supplied fluid then flows out through these clearances into seals between the separators 6 and 7 and the MEA 2. These flows raise the in-passage pressure and release the seals.
    • 燃料电池10的拆卸处理向燃料气体导管6g和氧化气体导管7g两者供给流体。 由于各气体导管6g,7g的出口被屏蔽,所以各气体导管6g,7g的内压或通路压力逐渐上升,最终超过燃料电池10的发电特定的通路内压力水平。 高通道压力使膜电极组件(MEA)2的气体扩散电极4b和限定燃料气体导管6g的隔板6沿相反方向膨胀,以使气体扩散电极4b和隔板 类似地,高通道压力使MEA2的气体扩散电极5b和限定氧化气体导管7g的隔板7以相反的方向膨胀,以在气体扩散电极5b和隔板7之间形成间隙。 所供应的流体然后通过这些间隙流出分离器6和7与MEA2之间的密封件。这些流动提高通道内压力并释放密封件。
    • 4. 发明申请
    • Fuel cell disassembly method and fuel cell
    • 燃料电池拆卸方法和燃料电池
    • US20070082250A1
    • 2007-04-12
    • US10584342
    • 2004-12-24
    • Hiroshi SuzukiGo TejimaTomoaki NakashimaRyo Akagawa
    • Hiroshi SuzukiGo TejimaTomoaki NakashimaRyo Akagawa
    • H01M8/02H01M2/08B23P19/00
    • H01M8/2457H01M8/008H01M8/0271H01M8/241H01M8/2465H01M8/2483Y02W30/86Y10T29/49815
    • A process of disassembling a fuel cell 10 supplies a fluid to both a fuel gas conduit 6g and an oxidizing gas conduit 7g. Since outlets of the respective gas conduits 6g and 7g are shielded, the internal pressure or in-passage pressure of the respective gas conduits 6g and 7g gradually rises and eventually exceeds a specific in-passage pressure level for power generation of the fuel cell 10. The high in-passage pressure expands a gas diffusion electrode 4b of a membrane electrode assembly (MEA) 2 and a separator 6, which define the fuel gas conduit 6g, in opposite directions to make a clearance between the gas diffusion electrode 4b and the separator 6. Similarly the high in-passage pressure expands a gas diffusion electrode 5b of the MEA 2 and a separator 7, which define the oxidizing gas conduit 7g, in opposite directions to make a clearance between the gas diffusion electrode 5b and the separator 7. The supplied fluid then flows out through these clearances into seals between the separators 6 and 7 and the MEA 2. These flows raise the in-passage pressure and release the seals.
    • 燃料电池10的拆卸处理向燃料气体导管6g和氧化气体导管7g供给流体。 由于各个气体导管6g和7g的出口被屏蔽,所以各个气体导管6g和7g的内部压力或通道内压力逐渐上升,最终超过了特定的通道内压力水平,用于发电 燃料电池10。 高通道压力使膜电极组件(MEA)2的气体扩散电极4b和限定燃料气体导管6g的隔板6沿相反方向膨胀,以在气体扩散电极4b 和分离器6。 类似地,高通道压力使MEA2的气体扩散电极5b和限定氧化气体导管7g的隔板7以相反的方向膨胀,以在气体扩散电极5b和隔板7之间形成间隙 。 然后,所供应的流体通过这些间隙流出到分离器6和7与MEA 2之间的密封件中。 这些流动提高通道内压力并释放密封。