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1.发明公开Method and system for starting up fuel cell stack at subzero temperatures, and method of designing fuel cell stack 有权方法和用于开始在低温燃料电池堆系统中,以及设计所述燃料电池堆的方法
公开(公告)号:EP1513209A3
公开(公告)日:2009-12-09
申请号:EP04021132.8
申请日:2004-09-06
发明人: Kato, Hideo , Inai, Shigeru , Hayashi, Katsumi , Jinba, Ryo
CPC分类号: H01M8/0247 , H01M8/0265 , H01M8/0267 , H01M8/04029 , H01M8/04097 , H01M8/04253 , H01M8/04268 , H01M8/04302 , H01M8/04365 , H01M8/04395 , H01M8/04552 , H01M8/04559 , H01M8/04589 , H01M8/04731 , H01M8/04753 , H01M8/04761 , H01M8/04768 , H01M8/04776 , H01M8/0488 , H01M8/0491 , H01M8/241
摘要: A method of starting up at a subzero temperature a solid polymer electrolyte fuel cell stack that is formed by stacking a plurality of layers of separators and membrane electrode assemblies having a solid polymer electrolyte membrane and electrodes. The method includes a step of using a solid polymer electrolyte fuel cell stack in which the separators are made from metal and have a cross-sectional waveform structure, and a space that is formed between at least a portion of the separators and separators that are placed adjacent to this portion of the separators is used as a coolant flow passage.
摘要翻译: 在零下温度起动的固体聚合物电解质燃料电池堆的方法,并通过层叠具有固体高分子电解质膜和电极的分离器和膜电极组件的层的多个形成。 该方法包括使用其中所述分离器是由金属制成并具有一横截面波形结构的固体高分子电解质型燃料电池堆的步骤,和一个空间并至少没有被放置在分离器和分离器的一部分之间形成 邻近分离器的这一部分被用作冷却剂流动通道。
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2.发明授权Method and system for starting up fuel cell stack at subzero temperatures, and method of designing fuel cell stack 有权Verfahren Verfahren zum Entwurf eines Brennstoffzellenstapels
公开(公告)号:EP1513209B1
公开(公告)日:2012-03-07
申请号:EP04021132.8
申请日:2004-09-06
发明人: Kato, Hideo , Inai, Shigeru , Hayashi, Katsumi , Jinba, Ryo
CPC分类号: H01M8/0247 , H01M8/0265 , H01M8/0267 , H01M8/04029 , H01M8/04097 , H01M8/04253 , H01M8/04268 , H01M8/04302 , H01M8/04365 , H01M8/04395 , H01M8/04552 , H01M8/04559 , H01M8/04589 , H01M8/04731 , H01M8/04753 , H01M8/04761 , H01M8/04768 , H01M8/04776 , H01M8/0488 , H01M8/0491 , H01M8/241
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3.发明授权Method and system for starting up fuel cell stack at subzero temperatures, and method of designing fuel cell stack 有权方法和系统,用于开始在零度以下的温度和方法的燃料电池堆设计的燃料电池堆
公开(公告)号:EP2413412B1
公开(公告)日:2013-12-18
申请号:EP11186712.3
申请日:2004-09-06
发明人: Kato, Hideo , Inai, Shigeru , Hayashi, Katsumi , Jinba, Ryo
CPC分类号: H01M8/0247 , H01M8/0265 , H01M8/0267 , H01M8/04029 , H01M8/04097 , H01M8/04253 , H01M8/04268 , H01M8/04302 , H01M8/04365 , H01M8/04395 , H01M8/04552 , H01M8/04559 , H01M8/04589 , H01M8/04731 , H01M8/04753 , H01M8/04761 , H01M8/04768 , H01M8/04776 , H01M8/0488 , H01M8/0491 , H01M8/241
摘要: A method of starting up at a subzero temperature a solid polymer electrolyte fuel cell stack that is formed by stacking a plurality of layers of separators and membrane electrode assemblies having a solid polymer electrolyte membrane and electrodes. The method includes a step of using a solid polymer electrolyte fuel cell stack in which the separators are made from metal and have a cross-sectional waveform structure, and a space that is formed between at least a portion of the separators and separators that are placed adjacent to this portion of the separators is used as a coolant flow passage.
摘要翻译: 在零下温度起动的固体聚合物电解质燃料电池堆的方法,并通过层叠具有固体高分子电解质膜和电极的分离器和膜电极组件的层的多个形成。 该方法包括使用其中所述分离器是由金属制成并具有一横截面波形结构的固体高分子电解质型燃料电池堆的步骤,和一个空间并至少没有被放置在分离器和分离器的一部分之间形成 邻近分离器的这一部分被用作冷却剂流动通道。
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4.发明公开Method and system for starting up fuel cell stack at subzero temperatures, and method of designing fuel cell stack 有权方法和系统,用于开始在零度以下的温度和方法的燃料电池堆设计的燃料电池堆
公开(公告)号:EP2413412A1
公开(公告)日:2012-02-01
申请号:EP11186712.3
申请日:2004-09-06
发明人: Kato, Hideo , Inai, Shigeru , Hayashi, Katsumi , Jinba, Ryo
CPC分类号: H01M8/0247 , H01M8/0265 , H01M8/0267 , H01M8/04029 , H01M8/04097 , H01M8/04253 , H01M8/04268 , H01M8/04302 , H01M8/04365 , H01M8/04395 , H01M8/04552 , H01M8/04559 , H01M8/04589 , H01M8/04731 , H01M8/04753 , H01M8/04761 , H01M8/04768 , H01M8/04776 , H01M8/0488 , H01M8/0491 , H01M8/241
摘要: A method of starting up at a subzero temperature a solid polymer electrolyte fuel cell stack that is formed by stacking a plurality of layers of separators and membrane electrode assemblies having a solid polymer electrolyte membrane and electrodes. The method includes a step of using a solid polymer electrolyte fuel cell stack in which the separators are made from metal and have a cross-sectional waveform structure, and a space that is formed between at least a portion of the separators and separators that are placed adjacent to this portion of the separators is used as a coolant flow passage.
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5.发明公开
公开(公告)号:EP1513209A2
公开(公告)日:2005-03-09
申请号:EP04021132.8
申请日:2004-09-06
发明人: Kato, Hideo , Inai, Shigeru , Hayashi, Katsumi , Jinba, Ryo
CPC分类号: H01M8/0247 , H01M8/0265 , H01M8/0267 , H01M8/04029 , H01M8/04097 , H01M8/04253 , H01M8/04268 , H01M8/04302 , H01M8/04365 , H01M8/04395 , H01M8/04552 , H01M8/04559 , H01M8/04589 , H01M8/04731 , H01M8/04753 , H01M8/04761 , H01M8/04768 , H01M8/04776 , H01M8/0488 , H01M8/0491 , H01M8/241
摘要: A method of starting up at a subzero temperature a solid polymer electrolyte fuel cell stack that is formed by stacking a plurality of layers of separators and membrane electrode assemblies having a solid polymer electrolyte membrane and electrodes. The method includes a step of using a solid polymer electrolyte fuel cell stack in which the separators are made from metal and have a cross-sectional waveform structure, and a space that is formed between at least a portion of the separators and separators that are placed adjacent to this portion of the separators is used as a coolant flow passage.
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