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    • 64. 发明申请
    • FUEL CELL SYSTEM AND CONTROL SYSTEM FOR SAME
    • 燃油电池系统和控制系统
    • US20120070753A1
    • 2012-03-22
    • US13321639
    • 2011-03-16
    • Akinari NakamuraTakayuki UrataShigeki Yasuda
    • Akinari NakamuraTakayuki UrataShigeki Yasuda
    • H01M8/06H01M8/04
    • H01M8/0625C01B3/384C01B2203/0233C01B2203/0283C01B2203/044C01B2203/066C01B2203/1604H01M8/04395H01M8/04559H01M8/04753H01M8/04783
    • A fuel cell system including: a fuel cell; a fuel processor including a reformer and a selective oxidizer configured to cause a reaction between carbon monoxide contained in a reformed gas and oxygen in air, an air blower configured to send air for use in power generation to a cathode of the fuel cell and to send air for use in a selective oxidation reaction to the selective oxidizer; a cathode air passage, one end of which is connected to the cathode of the fuel cell and the other end of which is connected to the air blower; a selective oxidation air passage, one end of which is connected to a branching point, on the cathode air passage, at which the selective oxidation air passage branches off from the cathode air passage, and the other end of which is connected to the selective oxidizer; a selective oxidation air meter configured to measure the flow rate of air supplied to the selective oxidizer; and a controller configured to control the air blower. The cathode air passage and the selective oxidation air passage are formed such that the flow rate of the air sent to the selective oxidizer is less than the flow rate of the air sent to the cathode. While the fuel cell is generating power, the controller performs feedback control of controlling the supply performance of the air blower based on the air flow rate measured by the selective oxidation air meter, such that the flow rate of the air sent to the selective oxidizer becomes a target value.
    • 一种燃料电池系统,包括:燃料电池; 包括重整器和选择性氧化器的燃料处理器,其被配置为引起重整气体中包含的一氧化碳与空气中的氧气之间的反应;被配置为将用于发电的空气发送到燃料电池的阴极的鼓风机,并且发送 用于选择性氧化反应的空气; 一个阴极空气通道,其一端连接到燃料电池的阴极,另一端与鼓风机连接; 一个选择性氧化空气通道,其一端连接到分支点,在阴极空气通道上,选择性氧化空气通道从阴极空气通道分支,另一端连接到选择性氧化剂 ; 选择性氧化空气计,被配置为测量供应到所述选择性氧化剂的空气的流量; 以及控制器,其构造成控制所述鼓风机。 阴极空气通道和选择性氧化空气通道形成为使得送到选择性氧化器的空气的流量小于送到阴极的空气的流量。 当燃料电池正在发电时,控制器基于由选择性氧化空气计测量的空气流量来执行控制鼓风机的供应性能的反馈控制,使得送到选择性氧化器的空气的流量变为 一个目标值。
    • 67. 发明申请
    • FUEL CELL SYSTEM AND METHOD OF OPERATING THE SAME
    • 燃料电池系统及其操作方法
    • US20130149623A1
    • 2013-06-13
    • US13818594
    • 2012-03-27
    • Akinari NakamuraHirofumi KokubuTakayuki UrataYoshikazu Tanaka
    • Akinari NakamuraHirofumi KokubuTakayuki UrataYoshikazu Tanaka
    • H01M8/04
    • H01M8/04686H01M8/04679H01M8/04955
    • A fuel cell system according to the present invention includes: a fuel cell (1); an accessory device; a sensor configured to detect an operation state of the fuel cell system; an accessory device abnormality detector (44) configured to detect an abnormality in the accessory device; a sensor abnormality detector (45) configured to detect an abnormality in the operation state of the fuel cell system; and a controller (47). The controller performs control such that, during normal operation of the fuel cell system, the controller continues the operation of the fuel cell system in the following cases: a case where the accessory device abnormality detector (44) has detected an abnormality and the sensor abnormality detector (45) detects no abnormality; and a case where the accessory device abnormality detector (44) detects no abnormality and the sensor abnormality detector (45) detects no abnormality, and stops the operation of the fuel cell system in the following cases: a case where the accessory device abnormality detector (44) has detected an abnormality and the sensor abnormality detector (45) has detected an abnormality; and a case where the accessory device abnormality detector (44) detects no abnormality and the sensor abnormality detector (45) has detected an abnormality.
    • 根据本发明的燃料电池系统包括:燃料电池(1); 附件装置 被配置为检测燃料电池系统的运行状态的传感器; 被配置为检测附件装置中的异常的附件装置异常检测器(44) 传感器异常检测器(45),被配置为检测燃料电池系统的运行状态的异常; 和控制器(47)。 控制器执行控制,使得在燃料电池系统的正常操作期间,控制器在以下情况下继续燃料电池系统的操作:附件装置异常检测器(44)检测到异常和传感器异常 检测器(45)不检测异常; 以及附属装置异常检测器(44)检测不到异常的情况,并且传感器异常检测器(45)不检测异常,并且在以下情况下停止燃料电池系统的动作:附属装置异常检测器 44)检测到异常,并且传感器异常检测器(45)检测到异常; 以及附件装置异常检测器(44)没有检测到异常并且传感器异常检测器(45)检测到异常的情况。
    • 68. 发明申请
    • FUEL CELL SYSTEM AND OPERATION METHOD THEREFOR
    • 燃油电池系统及其运行方法
    • US20120077097A1
    • 2012-03-29
    • US13376538
    • 2011-01-26
    • Hirofumi KokubuKoichi KusumuraAkinari NakamuraTakayuki Urata
    • Hirofumi KokubuKoichi KusumuraAkinari NakamuraTakayuki Urata
    • H01M8/06
    • H01M8/04156H01M8/04388H01M8/04395H01M8/04776H01M8/04955H01M2008/1095Y02E60/50
    • A fuel cell system of the present invention includes: a fuel cell apparatus; an exhaust gas passage through which an exhaust gas from the fuel cell apparatus is discharged; and a water tank configured to store water present within the exhaust gas. The water tank includes a first reservoir, a second reservoir, and a communication part which is configured to allow the first reservoir and the second reservoir to communicate with each other at a lower part of the water tank. The second reservoir of the water tank is provided with a drain outlet which is disposed above the communication part. The exhaust gas passage is connected to the first reservoir of the water tank. The exhaust gas passage is configured such that: in cases where a flow of the exhaust gas within the exhaust gas passage is not blocked at any position downstream from the water tank, the exhaust gas is discharged to the atmosphere from the exhaust gas passage; and in cases where the flow of the exhaust gas within the exhaust gas passage is blocked at a position downstream from the water tank, the exhaust gas is discharged to the atmosphere through the drain outlet of the water tank.
    • 本发明的燃料电池系统包括:燃料电池装置; 来自燃料电池装置的废气通过排气通道排出; 以及配置成存储废气中存在的水的水箱。 水箱包括第一储存器,第二储存器和连通部件,其构造成允许第一储存器和第二储存器在水箱的下部彼此连通。 水箱的第二储存器设置有设置在连通部上方的排水口。 废气通道连接到水箱的第一储存器。 废气通道被构造成:在废气通道内的废气流未在水箱下游的任何位置处被阻塞的情况下,废气从废气通道排放到大气中; 并且在废气通道内的废气流在水箱下游的位置处被阻塞的情况下,排气通过水箱的排水口排出到大气中。