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    • 2. 发明申请
    • INJECTOR CONTROL FOR FUEL CELL SYSTEM
    • 喷油器系统喷油器控制
    • US20110143234A1
    • 2011-06-16
    • US12635429
    • 2009-12-10
    • Ralf SennerDaniel C. Di Fiore
    • Ralf SennerDaniel C. Di Fiore
    • H01M8/00H01M8/04
    • H01M8/04097H01M8/04388H01M8/04589H01M8/04753
    • A fuel cell system that employs an injector/ejector for providing fresh hydrogen and anode recirculation gas to the anode side of a fuel cell stack. The injector/ejector is operated with a variable frequency so that the injector open time at low stack current densities is long enough to allow a pressure drop to be provided in the anode flow channels to push out water that may have accumulated therein. In one embodiment, the injector/ejector control provides a minimum pulse width per cycle and a maximum frequency so that as the stack current density decreases below a certain value the frequency decreases from the maximum frequency to maintain the pulse width constant at the minimum pulse width.
    • 一种燃料电池系统,其采用喷射器/喷射器来向燃料电池堆的阳极侧提供新的氢气和阳极再循环气体。 喷射器/喷射器以可变频率操作,使得在低堆电流密度下的喷射器打开时间足够长以允许在阳极流动通道中提供压降以推出可能积聚在其中的水。 在一个实施例中,喷射器/喷射器控制提供每个周期的最小脉冲宽度和最大频率,使得当堆叠电流密度降低到特定值以下时,频率从最大频率减小,以将脉冲宽度保持在最小脉冲宽度 。
    • 8. 发明申请
    • DIAGNOSIS AND REMEDIATION OF LOW ANODE HYDROGEN PARTIAL PRESSURE IN A PEM FUEL CELL SYSTEM
    • PEM燃料电池系统中低阳极部分压力的诊断和补救
    • US20120028152A1
    • 2012-02-02
    • US12844423
    • 2010-07-27
    • Daniel I. HarrisMatthew A. LangDaniel C. Di Fiore
    • Daniel I. HarrisMatthew A. LangDaniel C. Di Fiore
    • H01M8/04
    • H01M8/04559H01M8/04447H01M8/04589H01M8/04798H01M8/0488H01M2008/1095
    • A system and method for preventing anode reactant starvation. The system includes a hydrogen source, an anode bleed valve, and a cell voltage monitor. The system also includes an anode sub-system pressure sensor and a controller configured to control the anode sub-system. The controller determines the average cell voltage and estimates the hydrogen molar fraction and/or nitrogen molar fraction in the anode sub-system. The controller also receives measurement data from the cell voltage monitor and the pressure sensor, and determines whether there is a decrease in the minimum cell voltage in response to changes in the anode pressure. If the controller detects a decrease in the minimum cell voltage in response to changes in the anode pressure, the controller corrects for the decrease by increasing anode pressure and/or by decreasing the molar fraction of nitrogen in the anode sub-system.
    • 一种用于防止阳极反应物饥饿的系统和方法。 该系统包括氢源,阳极放电阀和电池电压监视器。 该系统还包括阳极子系统压力传感器和被配置为控制阳极子系统的控制器。 控制器确定平均电池电压并估计阳极子系统中的氢摩尔分数和/或氮摩尔分数。 控制器还从电池电压监视器和压力传感器接收测量数据,并且确定响应于阳极压力的变化是否存在最小电池电压的降低。 如果控制器响应于阳极压力的变化而检测到最小电池电压的降低,则控制器通过增加阳极压力和/或通过降低阳极子系统中的氮的摩尔分数来校正该降低。