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    • 2. 发明专利
    • Nitrogen generator loaded on fuel cell train using liquid hydrogen as fuel
    • 使用液氢燃料作为燃料的燃料电池负载的氮发电机
    • JP2010267391A
    • 2010-11-25
    • JP2009115259
    • 2009-05-12
    • Railway Technical Res Inst財団法人鉄道総合技術研究所
    • HASEGAWA HITOSHINAGASHIMA MASARUYAMAMOTO TAKAMITSU
    • H01M8/04H01M8/00
    • Y02E60/50
    • PROBLEM TO BE SOLVED: To solve a problem that, in a fuel cell train using liquid hydrogen as fuel, equipment and cost are likely to be increased if an inert gas for hydrogen substitution is stored on the train in a high pressure cylinder or a heat insulating container.
      SOLUTION: A nitrogen generator loaded on a fuel cell train using liquid hydrogen as fuel includes a vaporizing-heat exchanger 8 connected with a liquid hydrogen tank 7, an air intake unit 9 connected with the vaporizing-heat exchanger 8, a liquefaction separation unit 10 connected with the vaporizing-heat exchanger 8, a nitrogen vaporizing unit 11 connected with the liquefaction separation unit 10, and a fuel cell 1 which is connected with the vaporizing-heat exchanger 8 and to which hydrogen is supplied and also hydrogen is supplied from the nitrogen vaporizing unit 11. Heat-exchange is carried out, in the vaporizing-heat exchanger 8, with the air introduced from the air intake unit 9, and in the vaporizing-heat exchanger 8, nitrogen in the air is liquified and sent to the liquefaction separation unit 10, and nitrogen is selectively liquified and separated in the liquefaction separation unit 10, and the nitrogen liquified and separated is vaporized by the nitrogen vaporizing unit 11 and is sent to the fuel cell 1.
      COPYRIGHT: (C)2011,JPO&INPIT
    • 解决的问题为了解决在使用液态氢作为燃料的燃料电池系列中,如果用于氢置换的惰性气体存储在高压气缸中的列车上,则设备和成本可能增加的问题 或绝热容器。 解决方案:使用液态氢作为燃料装载在燃料电池组上的氮气发生器包括与液体氢罐7连接的汽化热交换器8,与蒸发热交换器8连接的进气单元9,液化 与蒸发热交换器8连接的分离单元10,与液化分离单元10连接的氮气蒸发单元11和与蒸发热交换器8连接并且供氢的氢燃料电池1 在蒸发热交换器8中,从进气单元9导入的空气,在蒸发热交换器8中,空气中的氮液化,进行热交换, 送到液化分离单元10,并且在液化分离单元10中选择性地液化和分离氮气,并且氮气化单元1蒸发氮气 1,并送到燃料电池1.版权所有(C)2011,JPO&INPIT
    • 6. 发明专利
    • Test equipment of electromagnetic force supporting device employing superconducting magnet device
    • 使用超级磁铁装置的电磁力支持装置的测试装置
    • JP2007209129A
    • 2007-08-16
    • JP2006025637
    • 2006-02-02
    • Railway Technical Res Inst財団法人鉄道総合技術研究所
    • KIYONO HIROSHINAGASHIMA MASARU
    • H02N15/04B60L13/04
    • PROBLEM TO BE SOLVED: To provide the test equipment of an electromagnetic force supporting device employing a superconducting magnet device in which a test can be carried out conveniently only with a pair of diamagnetic materials (superconducting bulk), a "coupling rod" for coupling them, and a load cell fixed to the coupling rod.
      SOLUTION: The test equipment of the electromagnetic force supporting device employing a superconducting magnet device comprises a cryostat (1) supporting a superconducting coil (2) with a circumferential direction heat insulation load supporting material (3) and a vertical direction heat insulation load supporting material (4), a first diamagnetic material (5) having a support arranged above the cryostat (1), a coupling rod (7) coupled with the first diamagnetic material (5), a second diamagnetic material (5) secured to the coupling rod (7), and a load cell (12) for measuring an electromagnetic force fixed to the coupling rod (7).
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:为了提供使用超导磁体装置的电磁力支撑装置的测试设备,其中只能使用一对抗磁性材料(超导本体)方便地进行测试,“耦合杆” 用于联接它们,以及固定到联接杆的称重传感器。 解决方案:采用超导磁体装置的电磁力支持装置的测试装置包括:一个支撑超导线圈(2)的低温恒温器(1),其具有圆周方向的绝热负载支撑材料(3)和垂直方向隔热层 负载支撑材料(4),具有布置在低温恒温器(1)上方的支撑件的第一抗磁材料(5),与第一抗磁材料(5)耦合的耦合杆(7),第二抗磁材料(5) 联接杆(7)和用于测量固定到联接杆(7)的电磁力的测力传感器(12)。 版权所有(C)2007,JPO&INPIT
    • 8. 发明专利
    • Test equipment of basic characteristics of high-temperature superconductive current lead
    • 高温超导电流基准特性试验装置
    • JP2007139577A
    • 2007-06-07
    • JP2005333621
    • 2005-11-18
    • Railway Technical Res Inst財団法人鉄道総合技術研究所
    • OGATA MASABUMINAGASHIMA MASARUIWAMATSU MASARUINOUE AKIHIKOMIYAZAKI YOSHIKIYAMASHITA TOMOHISASASAKI KENYANASE YASUTO
    • G01N25/18H01F6/00
    • PROBLEM TO BE SOLVED: To provide test equipment of the basic characteristics of a high-temperature superconductive current lead (HTS lead) capable of testing various characteristics related to the current, magnetic field and temperature of the HTS lead low in heat penetration and heat evolution under a rapid and accurate condition and capable of obtaining the data related to the design guideline of a superconductive magnet device in which the HTS lead is incorporated. SOLUTION: The test equipment of the basic characteristics of the high-temperature superconductive current lead is equipped with a heat shield main body 1, the permanent magnet 3 supported on the heat shield main body 1, the high-temperature superconductive current lead test body 2 arranged in the magnetic field due to the permanent magnet 3 and a temperature setting means for setting the temperature applied to the high-temperature superconductive current lead test body 2 through a lead connection part. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供能够测试与HTS引线的电流,磁场和温度相关的各种特性的高温超导电流引线(HTS引线)的基本特性的测试设备,其热穿透率低 并且在快速和准确的条件下进行放热,并且能够获得与其中并入HTS引线的超导磁体装置的设计指南相关的数据。

      解决方案:高温超导电流引线的基本特性的测试设备配有隔热板主体1,支撑在隔热板主体1上的永磁体3,高温超导电流引线 测试体2由于永磁体3而设置在磁场中;以及温度设定装置,用于通过引线连接部分设定施加到高温超导电流引线测试体2的温度。 版权所有(C)2007,JPO&INPIT

    • 9. 发明专利
    • Non-contact part cooling device
    • 非接触式部件冷却装置
    • JP2009264495A
    • 2009-11-12
    • JP2008115173
    • 2008-04-25
    • Railway Technical Res Inst財団法人鉄道総合技術研究所
    • TANAKA YOSHICHIKANAKAUCHI MASAHIKONAGASHIMA MASARUKIYONO HIROSHI
    • F16C37/00F16C32/04F16C39/06F25B9/00H02J15/00
    • F16C32/0438F16C2361/55F16C2380/28
    • PROBLEM TO BE SOLVED: To provide a non-contact part cooling device for securing a heat transfer amount in no contact under a low-temperature and low-pressure lean gas atmosphere. SOLUTION: A superconductive magnetic bearing cooling device has: a power storage flywheel 5 provided in a low-temperature vacuum container 1 using a vacuum pump 10, for transmitting or separating transmitting force to a power generation motor 13 via an electromagnetic clutch 14, the flywheel 5 having a rotating shaft 6 kept in a non-contact condition by using a flotation bulk body 7; guide bulk bodies 8, 9 as rotors cooled by a refrigerator 11 and a cooling plate 2 and set in a low-temperature lean gas atmosphere; a flotation superconductive coil 3; and guide superconductive coils 4 and 4'. It cools a magnetic bearing while setting a pressure in a range from a pressure region where heat transfer with radiation is dominant close to a pressure region where heat transfer with gas molecule transmission is dominant. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种非接触部分冷却装置,用于在低温和低压贫气体气氛下确保传热量不接触。 解决方案:超导磁轴承冷却装置具有:使用真空泵10设置在低温真空容器1中的动力储存飞轮5,用于经由电磁离合器14将发电力传递或发送到发电电动机13 ,具有通过使用浮选块体7而保持在非接触状态的旋转轴6的飞轮5; 引导体本体8,9作为由冷藏库11和冷却板2冷却并设置在低温贫气气氛中的转子; 浮选超导线圈3; 并引导超导线圈4和4'。 在从放射性传热优先的压力区域的压力范围接近于气体分子传输传热优势的压力区域的压力范围内,冷却磁性轴承。 版权所有(C)2010,JPO&INPIT