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    • 1. 发明专利
    • Fuel cell power generation system
    • 燃料电池发电系统
    • JP2012084285A
    • 2012-04-26
    • JP2010228041
    • 2010-10-08
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • NAKAGAWA KEIICHIITO EIKISATO AKIOMORIGA TAKUYATANI TOSHIHIROIWATA MITSUYOSHI
    • H01M8/04
    • Y02E60/50
    • PROBLEM TO BE SOLVED: To provide a fuel cell power generation system which can greatly restrict the amounts of hydrogen and oxygen gases which are discharged to the outside along with impurity gases.SOLUTION: A fuel cell power generation system 100 includes three-way valves 124 and 134 which start or stop discharging of gases 1 and 2 from inside a fuel cell body 110 to the outside; gas sensors 123 and 133 which detect the concentrations of gases 1 and 2 in the fuel cell body 110; a voltmeter 111 which measures the power generation voltage of the fuel cell body 110; and a control unit 140 which, when the concentrations of gases 1 and 2 in the fuel cell body 110 drop below a first stipulated gas concentration value, control the three-way valves 124 and 134 so as to stop discharging of gases 1 and 2 to the outside of the fuel cell body 110 based on information from the gas sensors 123 and 133 and, when the concentrations of gases 1 and 2 in the fuel cell body 110 drop below a second stipulated gas concentration value, control the three-way valves 124 and 134 so as to start discharging of gases 1 and 2 to the outside of the fuel cell body 110 based on information from the voltmeter 111.
    • 解决的问题:提供能够大大限制与杂质气体一起排出到外部的氢气和氧气的量的燃料电池发电系统。 解决方案:燃料电池发电系统100包括从燃料电池主体110内部向外部开始或停止气体1和2的排放的三通阀124和134; 气体传感器123和133,其检测燃料电池主体110中的气体1和2的浓度; 测量燃料电池主体110的发电电压的电压计111; 以及控制单元140,当燃料电池体110中的气体1和2的浓度下降到低于第一规定的气体浓度值时,控制三通阀124和134以停止气体1和2的排放到 燃料电池主体110的外部,基于来自气体传感器123和133的信息,并且当燃料电池体110中的气体1和2的浓度低于第二规定的气体浓度值时,控制三通阀124 和134,以便根据来自电压计111的信息,开始将气体1和2排放到燃料电池体110的外部。(C)2012,JPO&INPIT
    • 2. 发明专利
    • Solid polymer fuel battery system and its life expectancy evaluation method
    • 固体聚合物燃料电池系统及其寿命预期评估方法
    • JP2010198846A
    • 2010-09-09
    • JP2009041060
    • 2009-02-24
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • SATO AKIOITO EIKIMORIGA TAKUYAOMOTO SETSUOTANI TOSHIHIROIWATA MITSUYOSHI
    • H01M8/04G01N17/00H01M8/10
    • Y02E60/521
    • PROBLEM TO BE SOLVED: To provide a solid polymer fuel battery system capable of estimating lifetime of a fuel battery body on-line, and its life expectancy evaluation method.
      SOLUTION: The solid polymer fuel battery system includes a fuel battery body 11 having a cell wherein a solid polymer electrolyte membrane is sandwiched by a fuel electrode film and an oxidation electrode film, a fuel gas supply means 13 for supplying fuel gas (for example, hydrogen (H
      2 )) 12 to a fuel electrode film side, an oxidizer gas supply means 15 for supplying oxidant gas (for example, oxygen (O
      2 )) 14 to an oxidation electrode film side, a drain conductivity measuring instrument 17 for measuring conductivity of both drains 16 (12a, 13a) of a drain 12a at a fuel gas side discharged from the fuel battery body and a drain 13a at an oxidant gas side, and an arithmetic processing device 20 for evaluating life expectancy on the basis of the measured drain conductivity.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供能够估计燃料电池体在线寿命的固体聚合物燃料电池系统及其预期寿命评估方法。 解决方案:固体聚合物燃料电池系统包括具有电池的燃料电池体11,其中固体聚合物电解质膜被燃料电极膜和氧化电极膜夹持,用于供应燃料气体的燃料气体供应装置13 例如氢(H 2 SB 2))12供给到燃料电极膜侧,用于供给氧化剂气体(例如氧气(O 2 SBB))的氧化剂气体供给装置15, )14到氧化电极膜侧,用于测量从燃料电池体排出的燃料气体侧的排水管12的排出口16(12a,13a)的导电性的漏极电导率测量仪17和氧化剂气体的漏极13a 以及用于基于测量的漏极电导率来评估预期寿命的算术处理装置20。 版权所有(C)2010,JPO&INPIT
    • 3. 发明专利
    • Manufacturing device of electrode for solid polymer electrolyte fuel cell and manufacturing method utilizing this
    • 固体聚合物电解质燃料电池用电极的制造装置及其制造方法
    • JP2008181859A
    • 2008-08-07
    • JP2007275888
    • 2007-10-24
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • ITO EIKITSURUMAKI SHIGERUMORIGA TAKUYAYAMADA AKIHIKOYAMADA TAMOTSUSATO AKIOHORI KEIICHITANIMOTO TATEO
    • H01M4/88H01M4/86H01M8/02H01M8/10
    • Y02P70/56
    • PROBLEM TO BE SOLVED: To provide the manufacturing device and manufacturing method of an electrode for a polymer electrolyte fuel cell capable of efficiently bonding slurry of material of an electrode to a gas diffusion layer at a low price. SOLUTION: The device 100 manufacturing the electrode for the polymer electrolyte fuel cell by bonding slurry 2 of material of the electrode 3 to the gas diffusion layer 1 includes a cylindrical mesh-like rotary screen 121 rotatably closely facing the gas diffusion layer 1 running in a belt shape, supply pipe 123 or the like supplying the slurry 2 to the inside of the rotary screen 121, a squeegee 124 pushing out the slurry 2 supplied from the supply pipe 123 or the like from the inside of the rotary screen 121 to the gas diffusion layer 1, a drying furnace 113 drying the slurry 2 bonded to the gas diffusion layer 1, and a scraper 125 stirring the slurry inside the rotary screen 121 in the axial direction. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够以低价格将电极材料的浆料有效地粘合到气体扩散层的聚合物电解质燃料电池用电极的制造装置和制造方法。 解决方案:通过将电极3的材料的浆料2粘合到气体扩散层1来制造用于聚合物电解质燃料电池的电极的装置100包括可旋转地紧密面向气体扩散层1的圆筒形网状旋转屏幕121 以带状运行的供给管123等,将浆料2供给到旋转筛121的内部,从刮板121的内部推出从供给管123等供给的浆料2的刮板124 向气体扩散层1施加干燥炉113,干燥粘合到气体扩散层1的浆料2,以及沿轴向搅拌旋转筛121内的浆料的刮板125。 版权所有(C)2008,JPO&INPIT
    • 8. 发明专利
    • System and method for treating radioactive ion-exchange resin
    • 用于处理放射性离子交换树脂的系统和方法
    • JP2003315498A
    • 2003-11-06
    • JP2002122566
    • 2002-04-24
    • Mitsubishi Heavy Ind LtdNuclear Development Corpニユークリア・デベロップメント株式会社三菱重工業株式会社
    • KIZAWA HIDEOMIYAJIMA KAZUOKINOSHITA KOKIOYA YASUMASASATO AKIOMIYAKE TAKASHIKAKIMOTO AKIRASAEGUSA MORIYUKI
    • G21F9/30B01D1/00B01D61/30G21F9/06
    • PROBLEM TO BE SOLVED: To reduce the quantity of liquid radioactive wastes generated from the liquation treatment of a radioactive ion-exchange resin. SOLUTION: A system for treating radioactive ion-exchange resin includes a liquation device 11, a sulfuric acid recovery device 17, sulfuric acid recycling tanks 20 (#1 to #9) and a sulfuric acid recycling pump 21. The liquation device 11 incorporates the radioactive ion-exchange resin and receives a sulfuric acid water solution for liquation. Sulfuric acid in the liquated sulfuric acid water solution from which radioactive ion species are liquated in the liquation device 11 is recovered in the sulfuric acid recovery device 17. Then, the liquated sulfuric acid water solution where the sulfuric acid was recovered is divided into batches of a prescribed number as liquid wastes. The solidification treatment is carried out only for a liquid waste in a first batch, and liquid wastes in the other batches are recovered in the sulfuric acid recycling tanks 20 (#1 to #9) batch by batch. The recovered liquid waste is supplied to the liquation device 11 by the sulfuric acid recycling pump 21 and is used as a sulfuric acid water solution for liquation to give liquation treatment to a new radioactive ion-exchange resin. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:减少由放射性离子交换树脂的液化处理产生的液体放射性废物的数量。 解决方案:用于处理放射性离子交换树脂的系统包括液化装置11,硫酸回收装置17,硫酸回收罐20(#1至#9)和硫酸循环泵21.液化装置 11采用放射性离子交换树脂,并接收硫酸水溶液进行液化。 在硫酸回收装置17中回收在液化装置11中放射性离子种类液化的液化硫酸水溶液中的硫酸。然后,将回收硫酸的液化硫酸水溶液分成 规定数量作为液体废物。 固化处理仅对第一批废液进行固化处理,其他批次中的液体废物逐批回收到硫酸循环罐20(#1〜#9)中。 回收的废液通过硫酸回收泵21供给到液化装置11中,用作液化硫酸水溶液,对新的放射性离子交换树脂进行液化处理。 版权所有(C)2004,JPO
    • 9. 发明专利
    • Membrane electrode assembly, and solid polymer fuel cell using the same
    • 膜电极组件和固体聚合物燃料电池
    • JP2011175738A
    • 2011-09-08
    • JP2010036776
    • 2010-02-23
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • MORIGA TAKUYANAKAGAWA KEIICHIITO EIKISATO AKIOTANI TOSHIHIROIWATA MITSUYOSHI
    • H01M8/02H01M8/10
    • Y02E60/521
    • PROBLEM TO BE SOLVED: To provide a membrane electrode assembly capable of greatly restraining increase of a cross leak volume while preventing degradation of power generation efficiency, and to provide a solid polymer fuel cell using the same. SOLUTION: The membrane electrode assembly (cell) 10 is provided, between a solid polymer electrolyte membrane 11 and a hydrogen electrode 12, with a cerium oxide layer 14 with a thickness made thinner at a downstream side than an upstream side along a circulation direction of fuel gas 1 so that an average density of cerium oxide in a region from a contact surface with the solid polymer electrolyte membrane 11 to a specified distance L face is to be lower toward the downstream side from the upstream side along the circulation direction of the fuel gas 1. COPYRIGHT: (C)2011,JPO&INPIT
    • 解决的问题:提供能够极大地抑制交叉泄漏体积的增加同时防止发电效率降低的膜电极组件,并提供使用其的固体聚合物燃料电池。 解决方案:在固体聚合物电解质膜11和氢电极12之间设置膜电极组件(电池)10,其氧化铈层14的厚度比沿着沿着 燃料气体1的循环方向,使得从固体高分子电解质膜11的接触面到特定距离L面的区域中的氧化铈的平均密度从沿着循环方向的上游侧向下游侧下降 的燃气1.版权所有(C)2011,JPO&INPIT