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    • 1. 发明授权
    • Fuel cell system
    • 燃料电池系统
    • US08435686B2
    • 2013-05-07
    • US12128496
    • 2008-05-28
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • H01M8/04
    • H01M8/0432H01M8/0488H01M8/0491H01M2250/20Y02T90/32
    • A fuel cell system is provided that can suppress the degradation of the MEA and simultaneously assure the merchantability. The fuel cell system 1 includes: a fuel cell 10 that generates electric power by reacting hydrogen gas and oxidant gas; a temperature sensor 103 that detects the temperature of the fuel cell 10; a voltage lower limit calculation portion 31 that sets the voltage threshold to limit the output of the fuel cell 10 based on the temperature detected of the fuel cell 10; a current upper limit calculation portion 32 and the current limiting portion 33 that limits the output of the fuel cell in a case where the voltage generated by the fuel cell 10 is lower than the voltage threshold.
    • 提供了能够抑制MEA的劣化并同时确保适销性的燃料电池系统。 燃料电池系统1包括:燃料电池10,其通过使氢气与氧化剂气体反应产生电力; 检测燃料电池10的温度的温度传感器103; 电压下限计算部31,其根据检测到的燃料电池10的温度设定电压阈值以限制燃料电池10的输出; 在燃料电池10产生的电压低于电压阈值的情况下限制燃料电池的输出的电流上限计算部32和限流部33。
    • 4. 发明授权
    • Fuel cell system with integral gas and refrigerant drive device
    • 具有集成气体和制冷剂驱动装置的燃料电池系统
    • US07892686B2
    • 2011-02-22
    • US11516855
    • 2006-09-07
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • H01M8/04
    • G05D23/1919H01M8/04029H01M8/04067H01M8/04268H01M8/04358H01M8/04559H01M8/04589H01M8/04619H01M8/04753H01M8/04768H01M2008/1095
    • This fuel cell system is equipped with a fuel cell having a reaction gas flow passage, generating power by the reaction gas being supplied to the reaction gas flow passage, having a refrigerant flow passage, and cooled by the refrigerant being supplied to the refrigerant flow passage; a reaction gas supply device for supplying the reaction gas to the reaction gas flow passage; a refrigerant supply device for supplying the refrigerant to the refrigerant flow passage; a refrigerant supply restriction device for restricting a refrigerant supply amount to the refrigerant flow passage; and a controller for controlling the refrigerant supply restriction device, wherein the reaction gas refrigerant supply devices have a drive device in common and are integrally driven, and wherein when warming up the fuel cell, the controller controls the refrigerant supply restriction device and reduces the refrigerant supply amount to the refrigerant flow passage.
    • 该燃料电池系统配备有具有反应气体流路的燃料电池,由供给到反应气体流路的反应气体产生动力,具有制冷剂流路,并被供给至制冷剂流路的制冷剂冷却 ; 用于将反应气体供给到反应气体流路的反应气体供给装置; 制冷剂供给装置,用于将制冷剂供给到制冷剂流路; 制冷剂供给限制装置,用于限制制冷剂流动通道的制冷剂供给量; 以及控制器,用于控制制冷剂供应限制装置,其中反应气体制冷剂供应装置具有共同的驱动装置并被整体驱动,并且其中当燃料电池加热时,控制器控制制冷剂供应限制装置并且减少制冷剂 供给到制冷剂流路的供给量。
    • 5. 发明申请
    • Fuel-cell system and method for scavenging fuel cell
    • 燃料电池系统及清除燃料电池的方法
    • US20070031711A1
    • 2007-02-08
    • US11498373
    • 2006-08-03
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • H01M8/04
    • H01M8/04104H01M8/04179H01M8/04388H01M8/04395H01M8/04402H01M8/04753H01M8/04761H01M2008/1095
    • A fuel-cell system 1 includes: a fuel cell 13 configured to generate electricity through reaction between hydrogen gas and air; a compressor 12 configured to supply air as a scavenging gas to a reactant gas path 13a of the fuel cell 13; a control part 18 configured to control an amount of air supplied from the compressor 12 to the fuel cell 13 to perform scavenging of the fuel cell 13; and pressure sensors P1 and P2 configured to monitor a pressure drop in the reactant gas path 13a of the fuel cell 13. The control part 18 controls an amount of supplied air so as to keep the pressure drop in the reactant gas path 13a substantially constant when the fuel cell 13 is scavenged. With this configuration, residual water can be suitably purged from the fuel cell while energy consumption is suppressed.
    • 燃料电池系统1包括:燃料电池13,被配置为通过氢气和空气之间的反应发电; 压缩机12,被配置为将空气作为清扫气体供应到燃料电池13的反应气体通路13a; 控制部18,被配置为控制从压缩机12向燃料电池13供给的空气量,以进行燃料电池13的清扫; 压力传感器P 1,P 2构成为对燃料电池13的反应气体通路13a的压降进行监视。 当燃料电池13被清扫时,控制部分18控制供应的空气量,以便使反应物气体通道13中的压降保持基本恒定。 利用这种结构,可以在能量消耗被抑制的同时从燃料电池适当地清除残留的水。
    • 6. 发明授权
    • Fuel cell system including an air pressure-driven ejector
    • 燃料电池系统,包括气压驱动喷射器
    • US08722268B2
    • 2014-05-13
    • US12787085
    • 2010-05-25
    • Chihiro WakeKoichiro MiyataJumpei Ogawa
    • Chihiro WakeKoichiro MiyataJumpei Ogawa
    • H01M8/06
    • H01M8/04179H01M8/04097H01M8/04104H01M8/04164H01M8/0432H01M8/04388H01M8/04552H01M8/04753
    • A fuel cell system comprises a fuel cell stack, a cell voltage monitor, a hydrogen tank, a hydrogen supply channel, an ejector, a hydrogen off-gas channel, a purge valve, a compressor, an air supply channel, a pressure control unit for controlling air pressure, a pilot pressure input channel branching off from the air supply channel and inputting the air pressure to the ejector as pilot pressure, and a control unit for controlling the purge valve and the pressure control unit. The ejector includes a pressure control mechanism which increases the ejector's secondary-side pressure by increasing the area of the nozzle's ejecting hole when the pilot pressure input from the pilot pressure input channel rises. When electricity generation status of the fuel cell stack is judged to be poor, the control unit opens the purge valve after raising the air pressure and the pilot pressure by using the pressure control unit.
    • 燃料电池系统包括燃料电池堆,电池电压监视器,氢罐,氢供应通道,喷射器,氢气废气通道,净化阀,压缩机,供气通道,压力控制单元 用于控制空气压力,从所述供气通道分支的先导压力输入通道,并将空气压力输入到所述喷射器作为先导压力;以及控制单元,用于控制所述清洗阀和所述压力控制单元。 喷射器包括压力控制机构,当从先导压力输入通道输入的先导压力上升时,通过增加喷嘴喷射孔的面积来增加喷射器的次级侧压力。 当燃料电池堆的发电状态被判定为差时,控制单元通过使用压力控制单元在升高空气压力和先导压力之后打开净化阀。
    • 8. 发明授权
    • Fuel-cell system and method for scavenging fuel cell
    • 燃料电池系统及清除燃料电池的方法
    • US08007945B2
    • 2011-08-30
    • US11498373
    • 2006-08-03
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • Koichiro MiyataChihiro WakeJumpei Ogawa
    • H01M8/04
    • H01M8/04104H01M8/04179H01M8/04388H01M8/04395H01M8/04402H01M8/04753H01M8/04761H01M2008/1095
    • A fuel-cell system 1 includes: a fuel cell 13 configured to generate electricity through reaction between hydrogen gas and air; a compressor 12 configured to supply air as a scavenging gas to a reactant gas path 13a of the fuel cell 13; a control part 18 configured to control an amount of air supplied from the compressor 12 to the fuel cell 13 to perform scavenging of the fuel cell 13; and pressure sensors P1 and P2 configured to monitor a pressure drop in the reactant gas path 13a of the fuel cell 13. The control part 18 controls an amount of supplied air so as to keep the pressure drop in the reactant gas path 13a substantially constant when the fuel cell 13 is scavenged. With this configuration, residual water can be suitably purged from the fuel cell while energy consumption is suppressed.
    • 燃料电池系统1包括:燃料电池13,被配置为通过氢气和空气之间的反应发电; 构造成将空气作为清扫气体供给到燃料电池13的反应气体通道13a的压缩机12; 控制部18,被配置为控制从压缩机12向燃料电池13供给的空气量,以进行燃料电池13的清扫; 以及被配置为监测燃料电池13的反应气体通道13a中的压力降的压力传感器P1和P2。控制部分18控制供给的空气量,以便在反应气体通路13a中保持压降基本上恒定,当 燃料电池13被清扫。 利用这种结构,可以在能量消耗被抑制的同时从燃料电池适当地清除残留的水。