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    • 63. 发明授权
    • Fuel cell system using heat exchanging element
    • 燃料电池系统采用热交换元件
    • US08329352B2
    • 2012-12-11
    • US12180282
    • 2008-07-25
    • Cheng WangChing-Po LeeChih-Cheng Chou
    • Cheng WangChing-Po LeeChih-Cheng Chou
    • H01M8/04F28F13/00
    • H01M8/04014H01M8/0204H01M8/04074H01M8/04164H01M8/1011H01M2008/1095Y02E60/523
    • A heat exchanging element adapted to a fuel cell system includes a plurality of heat exchanging units and a fixing unit. The heat exchanging units are arranged to be spaced apart from one another along a first direction. The fixing unit fixes the heat exchanging units. Each of the heat exchanging units is demarcated into a first part and a second part extending from the first part by the fixing unit. A thermal conductivity coefficient of each of the heat exchanging units is higher than that of the fixing unit. The fixing unit is configured to slow heat conduction between the heat exchanging units. The heat exchanging element improves a heat recovery efficiency of the fuel cell system. In addition, two kinds of fuel cell systems using the above-mentioned heat exchanging element are provided.
    • 适用于燃料电池系统的热交换元件包括多个热交换单元和固定单元。 热交换单元被布置成沿着第一方向彼此间隔开。 固定单元固定热交换单元。 每个热交换单元被划分为第一部分,第二部分由第一部分通过定影单元延伸。 每个热交换单元的导热系数高于定影单元的导热系数。 固定单元构造成减缓热交换单元之间的热传导。 热交换元件提高了燃料电池系统的热回收效率。 此外,提供了使用上述热交换元件的两种燃料电池系统。
    • 64. 发明申请
    • REGISTER ALLOCATION IN ROTATION BASED ALIAS PROTECTION REGISTER
    • 基于旋转的ALIAS保护寄存器中的注册分配
    • US20120260072A1
    • 2012-10-11
    • US13082146
    • 2011-04-07
    • Cheng WangYoufeng Wu
    • Cheng WangYoufeng Wu
    • G06F9/30
    • G06F9/3842G06F9/3838G06F9/384
    • A system may comprises an optimizer/scheduler to schedule on a set of instructions, compute a data dependence, a checking constraint and/or an anti-checking constraint for the set of scheduled instructions, and allocate alias registers for the set of scheduled instructions based on the data dependence, the checking constraint and/or the anti-checking constraint. In one embodiment, the optimizer is to release unused registers to reduce the alias registers used to protect the scheduled instructions. The optimizer is further to insert a dummy instruction after a fused instruction to break cycles in the checking and anti-checking constraints.
    • 系统可以包括优化器/调度器,以在一组指令上调度,计算数据依赖性,检查约束和/或针对所设置的指令集合的反检查约束,并且为该组调度指令分配别名寄存器 关于数据依赖性,检查约束和/或反检查约束。 在一个实施例中,优化器是释放未使用的寄存器以减少用于保护调度指令的别名寄存器。 优化器进一步在融合指令之后插入一个虚拟指令,以便在检查和反查约束中打破周期。
    • 66. 发明授权
    • Fuel cell module with membrane swelling control structure
    • 具有膜膨胀控制结构的燃料电池模块
    • US08133630B2
    • 2012-03-13
    • US11926105
    • 2007-10-28
    • Cheng WangChing-Po LeeJin-Shu HuangNien-Hui Hsu
    • Cheng WangChing-Po LeeJin-Shu HuangNien-Hui Hsu
    • H01M8/24
    • H01M8/241H01M8/0228H01M8/0247H01M8/0269H01M8/0289H01M8/242H01M8/246
    • A fuel cell module including a membrane electrode assembly (MEA), a pressing plate, an anode collector, an anode flow channel plate, a cathode collector, and a cathode flow channel plate is provided. The MEA has a protrusion, and the pressing plate presses an edge of a cathode of the MEA. The pressing plate has a first opening to expose the protrusion. The anode collector is disposed on an anode of the MEA. The anode flow channel plate is disposed on anode collector. The anode collector is disposed between the anode and the anode flow channel plate. The cathode flow channel plate faces the cathode collector disposed on the cathode and the pressing plate to form a flow channel between an inner surface of the cathode flow channel plate and the cathode collector. The cathode flow channel plate has a concave portion corresponding to the protrusion.
    • 提供一种燃料电池模块,其包括膜电极组件(MEA),压板,阳极集电体,阳极流路板,阴极集电体和阴极流路板。 MEA具有突起,按压板压迫MEA阴极的边缘。 压板具有第一开口以暴露突起。 阳极集电器设置在MEA的阳极上。 阳极流路板设置在阳极集电体上。 阳极集电器设置在阳极和阳极流动通道板之间。 阴极流路板面对设置在阴极上的阴极集电体和压板,在阴极流路板的内表面和阴极集电体之间形成流路。 阴极流路板具有与突起对应的凹部。
    • 67. 发明授权
    • Flow field plate module for fuel cell system
    • 燃料电池系统流场板模块
    • US08101313B2
    • 2012-01-24
    • US11905212
    • 2007-09-28
    • Cheng WangJin-Shu HuangChing-Po LeeNien-Hui Hsu
    • Cheng WangJin-Shu HuangChing-Po LeeNien-Hui Hsu
    • H01M8/24H01M8/04
    • H01M8/0258H01M8/04186
    • A flow field plate module for a fuel cell system includes at least one flow field plate defining a fuel transporting channel thereon. The fuel transporting channel is divided into a middle converging zone having a group of first flow guiding plates arranged therein, and two diverging zones located at two lateral sides of the middle converging zone and each having a group of second flow guiding plates arranged therein. The second flow guiding plates are symmetrically arranged in the two diverging zones and are directed at respective inner end toward a space between two adjacent first flow guiding plates in the middle converging zone to thereby offset from each of the two adjacent first flow guiding plates by a predetermined distance in a fuel flowing direction, so that a fluid path is formed between any two adjacent first and second flow guiding plates.
    • 用于燃料电池系统的流场板模块包括在其上限定燃料输送通道的至少一个流场板。 燃料输送通道被分成具有一组布置在其中的一组第一导流板的中间会聚区域,以及位于中间会聚区域的两个侧面处的两个发散区域,每个具有布置在其中的一组第二导流板。 第二流动引导板对称地布置在两个发散区域中并且在相应的内端处朝向中间会聚区域中的两个相邻的第一导流板之间的空间引导,从而从两个相邻的第一流动引导板中的每一个偏移一个 在燃料流动方向上的预定距离,使得在任何两个相邻的第一和第二导流板之间形成流体路径。
    • 68. 发明申请
    • EFFICIENT AND CONSISTENT SOFTWARE TRANSACTIONAL MEMORY
    • 有效和一致的软件交易记忆
    • US20120016853A1
    • 2012-01-19
    • US13246678
    • 2011-09-27
    • Cheng WangYoufeng WuWei-Yu ChenBratin SahaAli Reza Adl-Tabatabai
    • Cheng WangYoufeng WuWei-Yu ChenBratin SahaAli Reza Adl-Tabatabai
    • G06F7/00
    • G06F8/458G06F9/3004G06F9/30087G06F9/3834G06F9/3859G06F9/3863G06F9/467
    • A method and apparatus for efficient and consistent validation/conflict detection in a Software Transactional Memory (STM) system is herein described. A version check barrier is inserted after a load to compare versions of loaded values before and after the load. In addition, a global timestamp (GTS) is utilized to track a latest committed transaction. Each transaction is associated with a local timestamp (LTS) initialized to the GTS value at the start of a transaction. As a transaction commits it updates the GTS to a new value and sets versions of modified locations to the new value. Pending transactions compare versions determined in read barriers to their LTS. If the version is greater than their LTS indicating another transaction has committed after the pending transaction started and initialized the LTS, then the pending transaction validates its read set to maintain efficient and consistent transactional execution.
    • 这里描述了用于在软件事务存储器(STM)系统中有效且一致的验证/冲突检测的方法和装置。 在加载之后插入版本检查障碍,以便在加载之前和之后比较加载值的版本。 此外,使用全局时间戳(GTS)来跟踪最近提交的事务。 每个事务与在事务开始时初始化为GTS值的本地时间戳(LTS)相关联。 作为事务提交,将GTS更新为新值,并将修改的位置的版本设置为新值。 待处理的交易将比较其在LTS阅读障碍中确定的版本。 如果版本大于其LTS,指示在挂起事务启动并初始化LTS之后另一个事务已经提交,则挂起的事务会验证其读取集合以保持有效且一致的事务执行。
    • 69. 发明申请
    • HYDROGEN GENERATION DEVICE AND FUEL CELL USING THE SAME
    • 氢气发生装置和使用它的燃料电池
    • US20110189563A1
    • 2011-08-04
    • US12908002
    • 2010-10-20
    • Po-Kuei ChouCheng WangYueh-Chang Wu
    • Po-Kuei ChouCheng WangYueh-Chang Wu
    • H01M8/06B01J19/00
    • B01J19/00H01M8/06
    • A hydrogen generation device and a fuel cell using the same are provided. The hydrogen generation device includes a first containing groove, a cover, a second containing groove, and a rotating device. The first containing groove contains liquid water. The cover is fixed on the first containing groove and covers the liquid water. The cover has an opening for exposing the liquid water. The second containing groove is stacked on the cover and divided into a plurality of containing compartments, wherein each containing compartment contains a solid fuel. The opening is aligned with one containing compartment so that the corresponding solid fuel reacts with the liquid water generate hydrogen. The rotating device is connected with the first or the second containing groove. The opening is moved and aligned with another containing compartment when the rotating device drives the first containing groove and the second containing groove to relatively rotate.
    • 提供了一种氢生成装置和使用其的燃料电池。 氢产生装置包括第一容纳槽,盖,第二容纳槽和旋转装置。 第一容纳槽包含液态水。 盖固定在第一容纳槽上并覆盖液态水。 盖具有用于暴露液态水的开口。 第二容纳槽堆叠在盖上并分成多个容纳隔室,其中每个容纳室包含固体燃料。 开口与一个容纳隔间对准,使得相应的固体燃料与液态水反应产生氢气。 旋转装置与第一或第二容纳槽连接。 当旋转装置驱动第一容纳槽和第二容纳槽相对旋转时,开口移动并与另一容纳隔间对准。
    • 70. 发明申请
    • FUEL MIXING TANK AND FUEL CELL SYSTEM
    • 燃料混合罐和燃料电池系统
    • US20110129761A1
    • 2011-06-02
    • US12850646
    • 2010-08-05
    • Cheng WangPo-Kuei Chou
    • Cheng WangPo-Kuei Chou
    • H01M8/04
    • H01M8/04208H01M8/04201
    • A fuel mixing tank adapted for supplying fuel to a fuel cell unit of a fuel cell system is provided. The fuel mixing tank includes a storage room, a supplying pipe, and a fuel recycling pipe. The storage room is adapted for communicating with the fuel cell unit to supply fuel to the fuel cell unit. The supplying pipe supplies fuel or water to the storage room and is thermally and adjacently connected to the storage room. The fuel recycling pipe is adapted for communicating with the fuel cell unit to recycle fuel from the fuel cell unit, and the fuel recycling pipe and the supplying pipe are connected at a convergence place communicating with the storage room. The fuel mixing tank has superior power generation efficiency.
    • 提供了一种用于向燃料电池系统的燃料电池单元供应燃料的燃料混合罐。 燃料混合罐包括储藏室,供给管和燃料循环管。 存储室适于与燃料电池单元连通以向燃料电池单元供应燃料。 供应管道向储藏室供应燃料或水,并且热和相邻地连接到储藏室。 燃料循环管适于与燃料电池单元连通以从燃料电池单元再循环燃料,并且燃料回收管和供应管在与储藏室连通的会聚处连接。 燃料混合罐具有优异的发电效率。