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    • 1. 发明申请
    • SOLID OXIDE FUEL CELL SYSTEMS
    • 固体氧化物燃料电池系统
    • WO2009148505A3
    • 2010-02-18
    • PCT/US2009003110
    • 2009-05-20
    • CORNING INCBADDING MICHAEL EBOUTON WILLIAM JCHEN PENGGREGORSKI STEVEN J
    • BADDING MICHAEL EBOUTON WILLIAM JCHEN PENGGREGORSKI STEVEN J
    • H01M8/02F28D9/00H01M8/04H01M8/24
    • H01M8/2475F28D9/0037F28D9/0043F28F3/12F28F21/08F28F2265/26H01M8/0273H01M8/04014H01M8/04074H01M8/04104H01M8/04268H01M8/242H01M8/2425
    • According to one embodiment of the present invention a fuel cell system comprises: (i) a plurality of fuel cell packets, each packet comprising at least one fuel inlet, at least one fuel outlet, a frame, and two multi-cell fuel cell devices, the fuel cell devices situated such that an anode side of one fuel cell device faces an anode side of another fuel cell device, and the two fuel cell devices, in combination, at least partially form a fuel chamber connected to the fuel inlet and the fuel outlet; (ii) a plurality of heat exchange packets, each packet comprising at least one oxidant inlet, at least one oxidant outlet, and an internal oxidant chamber connected to the at least one oxidant inlet and the least one oxidant outlet; the heat exchange packets being parallel to and interspersed between the fuel cell packets, such that the heat exchange packets face the fuel cell packets and form, at least in part, a plurality of cathode reaction chambers between the heat exchange packets and the fuel cell packets; (iii) a housing supporting and enclosing the fuel packets and the heat exchange packets; (iv) an oxidant inlet plenum operatively connected to oxidant inlets of the heat exchange packets; (v) an oxidant exhaust plenum operatively connected to the cathode reaction chambers; (vi) an inlet fuel manifold connected to fuel inlets of the fuel cell packets; and (vii) an exhaust fuel manifold connected to the fuel outlets of the fuel cell packets.
    • 根据本发明的一个实施例,燃料电池系统包括:(i)多个燃料电池组,每个分组包括至少一个燃料入口,至少一个燃料出口,框架和两个多单元燃料电池装置 燃料电池装置被设置为使得一个燃料电池装置的阳极侧面对另一个燃料电池装置的阳极侧,并且两个燃料电池装置组合至少部分地形成连接到燃料入口的燃料室和 燃料出口 (ii)多个热交换包,每个包包含至少一个氧化剂入口,至少一个氧化剂出口和连接到所述至少一个氧化剂入口和所述至少一个氧化剂出口的内部氧化剂室; 所述热交换包平行于并分散在所述燃料电池包之间,使得所述热交换包面对所述燃料电池包,并且至少部分地形成所述热交换包与所述燃料电池包之间的多个阴极反应室 ; (iii)支撑和封闭燃料包和热交换包的壳体; (iv)可操作地连接到热交换包的氧化剂入口的氧化剂入口增压室; (v)可操作地连接到阴极反应室的氧化剂排气室; (vi)连接到燃料电池组的燃料入口的入口燃料歧管; 和(vii)连接到燃料电池组件的燃料出口的排气燃料歧管。
    • 3. 发明申请
    • METHOD FOR ALIGNING OPTICAL PACKAGES
    • 调整光学包装的方法
    • WO2010068718A2
    • 2010-06-17
    • PCT/US2009067425
    • 2009-12-10
    • CORNING INCGREGORSKI STEVEN J
    • GREGORSKI STEVEN J
    • H01L21/02
    • G02B6/4225
    • A method is given for aligning an optical package comprising a laser, a wavelength conversion device, at least one adjustable optical component, and at least one actuator. The adjustable optical component may be moved to a command position by applying a pulse width modulated signal to the actuator. The command position represents an optimized alignment of the laser and wavelength conversion device. The actual position of the adjustable may be measured by measuring an output of a position measuring circuit, which may measure the voltage amplitude of an oscillation in a resonator tank circuit during an "off" period of the pulse-width modulated signal. The resonator tank circuit may comprise a capacitive element electrically coupled to the electrically conductive coil. The pulse-width modulated signal may then be adjusted to compensate for any difference in the actual position and the command position of the adjustable optical component. Additional embodiments are disclosed and claimed.
    • 给出了一种用于对准包括激光器,波长转换装置,至少一个可调节光学部件和至少一个致动器的光学组件的方法。 通过向致动器施加脉宽调制信号,可调光学部件可以移动到指令位置。 命令位置表示激光和波长转换装置的优化对齐。 可以通过测量位置测量电路的输出来测量可调节的实际位置,该位置测量电路可以在脉冲宽度调制信号的“关闭”周期期间测量谐振腔电路中的振荡的电压振幅。 谐振器储能电路可以包括电耦合到导电线圈的电容元件。 然后可以调整脉宽调制信号以补偿可调光学部件的实际位置和命令位置中的任何差异。 其他实施例被公开和要求保护。