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    • 1. 发明申请
    • AUTOMATIC ANALYZER
    • 自动分析仪
    • US20090220383A1
    • 2009-09-03
    • US12355266
    • 2009-01-16
    • Masahiko IIJIMAKazumi KusanoShinji Azuma
    • Masahiko IIJIMAKazumi KusanoShinji Azuma
    • B01J19/00
    • G01N35/00G01N2035/00346G01N2035/00396G01N2035/00465
    • Disclosed herein is an automatic analyzer that can eliminate the generation of air bubbles of dissolved gas in a liquid circulating in a thermostat bath enabling stable photometry.A degasifier for removing the dissolved gas in the liquid and a bypass passage for ensuring a flow rate required for temperature control of the circulating liquid are provided in a passage for temperature-controlled liquid circulating in the thermostat bath. The automatic analyzer can reduce the dissolved gas concentration to a level at which air bubbles of the dissolved gas in the liquid do not appear while maintaining a flow rate required for temperature control of the liquid circulating in the thermostat bath, thus eliminating air bubbles passing through the light flux during photometry and accordingly enabling stable photometry.
    • 本文公开了一种自动分析仪,其可以消除在恒温槽中循环的液体中溶解气体的气泡的产生,从而能够进行稳定的测光。 在用于在恒温槽中循环的温度控制液体的通道中设置有用于除去液体中的溶解气体的脱气器和用于确保循环液体的温度控制所需的流量的旁路通路。 自动分析仪可以将溶解气体浓度降低到不会出现液体中溶解气体的气泡的水平,同时保持在恒温槽中循环的液体的温度控制所需的流量,从而消除通过的气泡 光度测量中的光通量,从而实现稳定的光度测量。
    • 5. 发明授权
    • Fuel cell production method and fuel cell
    • 燃料电池生产方法和燃料电池
    • US07829235B2
    • 2010-11-09
    • US11660041
    • 2005-09-07
    • Masahiko Iijima
    • Masahiko Iijima
    • H01M8/10H01M8/24
    • H01M8/1213H01M4/86H01M4/8657H01M4/8885H01M4/9016H01M4/9033H01M4/94H01M8/10H01M8/1004H01M8/1253H01M8/126H01M2008/1293Y02E60/525Y02P70/56Y10T29/49115
    • First, a solid-state electrolyte layer that has conductivity for ions of one of hydrogen and oxygen is formed. After that, a dense layer made of an electrode material that has electron conductivity, catalyst activity to accelerate the electrochemical reaction, and a characteristic of allowing permeation of ions and/or atoms of the other one of hydrogen and oxygen is formed on a surface of the electrolyte layer. Then, a fuel cell structure that includes the electrolyte layer and the dense layer is built. After that, the electrochemical reaction is caused to progress by supplying a fuel and oxygen to the fuel cell structure, so that in the dense layer, many micropores extending through the dense layer in the film thickness direction are created due to the generated water that is created between the electrolyte layer and the dense layer.
    • 首先,形成具有氢和氧之一的离子的导电性的固体电解质层。 之后,由具有电子传导性的电极材料制成的致密层,加速电化学反应的催化剂活性以及允许氢和氧中的另一个的离子和/或原子渗透的特性形成在 电解质层。 然后,构建包括电解质层和致密层的燃料电池结构体。 之后,通过向燃料电池结构体供给燃料和氧来进行电化学反应,使得在致密层中,由于产生的水是产生许多在膜厚度方向上延伸通过致密层的微孔 在电解质层和致密层之间产生。
    • 8. 发明授权
    • Apparatus for hydrogen separation and fuel cell system
    • 氢分离装置和燃料电池系统
    • US07282085B2
    • 2007-10-16
    • US10788294
    • 2004-03-01
    • Satoshi AoyamaNaoki ItoMasahiko Iijima
    • Satoshi AoyamaNaoki ItoMasahiko Iijima
    • B03C3/41H01M8/04H01M2/02
    • B01D53/22B01D53/228B01D63/08B01D2257/108H01M8/04089H01M8/0612H01M8/0687
    • This invention prevents reduction of hydrogen permeability and deterioration in hydrogen separation members that use an oxygen-containing gas as a cathode off gas and a purge gas. Described is a hydrogen separation device that includes a reformed gas passage, a purge gas passage, and a hydrogen separation membrane. A supply of reformed gas flows through the reformed gas passage. A cathode off gas discharged from a fuel cell cathode flows through the purge gas passage to carry hydrogen transmitted through the hydrogen separation membrane to a fuel cell anode. A portion of the hydrogen separation membrane near the supply of the cathode off gas has enhanced heat resistance that prevents deterioration of the hydrogen separation membrane even when hydrogen transmitted through the membrane reacts with oxygen remaining in the cathode off gas to raise the temperature in the vicinity of the portion close to the supply of the cathode off gas.
    • 本发明可防止使用含氧气体作为阴极废气和净化气体的氢分离部件的氢气渗透性和劣化。 描述了一种氢分离装置,其包括重整气体通道,吹扫气体通道和氢分离膜。 重整气体的供应流过重整气体通道。 从燃料电池阴极排出的阴极废气流过净化气体通道,将通过氢分离膜传输的氢气输送到燃料电池阳极。 靠近阴极废气供应的氢分离膜的一部分具有增强的耐热性,防止氢分离膜的劣化,即使透过膜的氢气与残留在阴极废气中的氧气反应,以提高附近的温度 的接近阴极废气的供应部分。
    • 10. 发明授权
    • Controller of a synchronous motor
    • 同步电机的控制器
    • US5097192A
    • 1992-03-17
    • US681603
    • 1991-04-08
    • Masahiko Iijima
    • Masahiko Iijima
    • H02P6/08H02P23/00H02P25/00H02P25/02H02P27/00
    • H02P6/08H02P25/03
    • A controller of a synchronous motor for stably controlling the synchronous motor from a low speed to a high speed. The controller includes a multi-phase synchronous motor, a multi-phase square wave oscillator circuit, a magnetic pole position detection unit for detecting a position of the magnetic pole of a rotor of the multi-phase synchronous motor, and a unit for calculating a detection period of the magnetic pole position of the rotor by the magnetic pole position detection unit. The controller further includes a unit for dividing multi-phase square waves for each phase generated from the multi-phase square wave oscillator circuit into a plurality of pulses for each period to produce the divided square pulses. The controller also includes an excitation current control unit for controlling the divided square pulses for each phase in accordance with the detection period to supply the pulses to stator coils of the motor.
    • 一种用于从低速到高速稳定地控制同步电动机的同步电动机的控制器。 该控制器包括多相同步电动机,多相方波振荡电路,用于检测多相同步电动机的转子的磁极位置的磁极位置检测单元,以及用于计算 通过磁极位置检测单元检测转子的磁极位置。 该控制器还包括一个单元,用于将由多相方波振荡器电路产生的每相的多相方波划分成多个脉冲,以产生每个周期以产生分频的方波脉冲。 控制器还包括激励电流控制单元,用于根据检测周期控制每相的分频方波脉冲,以将脉冲提供给电动机的定子线圈。