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    • 1. 发明授权
    • Method of removing residual oxygen in fuel cell by electrochemical purging
    • 通过电化学清洗去除燃料电池中残留氧的方法
    • US08372552B2
    • 2013-02-12
    • US12622600
    • 2009-11-20
    • Hee-young SunDuk-jin OhTae-won Song
    • Hee-young SunDuk-jin OhTae-won Song
    • H01M8/04
    • H01M8/04231Y02P70/56
    • A method of removing residual oxygen in a residential high temperature non-humidification fuel cell stack including at least one cathode. The method includes making the pressure in the cathode higher than that outside of the cathode and maintaining airtight sealing of the cathode of the fuel cell stack, removing the residual oxygen in the fuel cell stack, and stopping supplying of fuel to the fuel cell stack. The setting of the pressure includes blocking air flow out of the cathode, comparing the pressure in the cathode with a set pressure higher than the pressure outside the cathode, and supplying air to the cathode until the pressure in the cathode is the same as or is higher than the set pressure.
    • 一种在包括至少一个阴极的住宅高温非加湿燃料电池堆中去除残余氧的方法。 该方法包括使阴极中的压力高于阴极的压力,并保持燃料电池堆的阴极的气密密封,去除燃料电池堆中的残余氧,并停止向燃料电池堆供应燃料。 压力的设定包括阻止从阴极流出的空气,将阴极中的压力与高于阴极外部的压力的设定压力进行比较,并向阴极供应空气,直到阴极中的压力相同或为 高于设定压力。
    • 2. 发明申请
    • METHOD OF REMOVING RESIDUAL OXYGEN IN FUEL CELL BY ELECTROCHEMICAL PURGING
    • 通过电化学清洗在燃料电池中去除残留氧的方法
    • US20100151289A1
    • 2010-06-17
    • US12622600
    • 2009-11-20
    • Hee-young SunDuk-jin OhTae-won Song
    • Hee-young SunDuk-jin OhTae-won Song
    • H01M8/00
    • H01M8/04231Y02P70/56
    • A method of removing residual oxygen in a residential high temperature non-humidification fuel cell stack including at least one cathode. The method includes making the pressure in the cathode higher than that outside of the cathode and maintaining airtight sealing of the cathode of the fuel cell stack, removing the residual oxygen in the fuel cell stack, and stopping supplying of fuel to the fuel cell stack. The setting of the pressure includes blocking air flow out of the cathode, comparing the pressure in the cathode with a set pressure higher than the pressure outside the cathode, and supplying air to the cathode until the pressure in the cathode is the same as or is higher than the set pressure.
    • 一种在包括至少一个阴极的住宅高温非加湿燃料电池堆中去除残余氧的方法。 该方法包括使阴极中的压力高于阴极的压力,并保持燃料电池堆的阴极的气密密封,去除燃料电池堆中的残余氧,并停止向燃料电池堆供应燃料。 压力的设定包括阻止从阴极流出的空气,将阴极中的压力与高于阴极外部的压力的设定压力进行比较,并向阴极供应空气,直到阴极中的压力相同或为 高于设定压力。
    • 5. 发明申请
    • FUEL CELL SYSTEM AND MANAGING METHOD THEREOF
    • 燃料电池系统及其管理方法
    • US20080176114A1
    • 2008-07-24
    • US11841219
    • 2007-08-20
    • DUK-JIN OHHyun-chul LeeTae-won SongDong-kwan KimYong Wang
    • DUK-JIN OHHyun-chul LeeTae-won SongDong-kwan KimYong Wang
    • H01M8/06H01M8/02
    • H01M8/0267H01M8/04022H01M8/04029H01M8/04302H01M8/0612
    • A fuel cell system a includes a cooling water temperature raising unit that raises the temperature of a fuel cell stack by passing discharge gas of a process burner or hydrogen gas of a fuel processing unit and cooling water that is heated by the discharge gas of the process burner through flow paths formed on opposing surfaces of cooling separators formed of a metal and installed between a plurality of cells in the stack. Thus in the fuel cell system, when the temperature of the stack needs to be rapidly raised, for example, during a start up operation of the fuel cell system, the temperature of the stack can be rapidly raised using discharge gas at a high temperature or combustion heat of hydrogen gas, and heated cooling water, and thereby, significantly reducing the time required for the fuel cell system to be in regular operation.
    • 燃料电池系统a包括:冷却水温度升高单元,其通过使工艺燃烧器的排气或燃料处理单元的氢气通过燃料电池堆的温度和由该过程的排出气体加热的冷却水而升高燃料电池堆的温度 燃烧器通过形成在由金属形成的冷却分离器的相对表面上并安装在堆叠中的多个单元之间的流动路径。 因此,在燃料电池系统中,当需要快速升高堆叠的温度时,例如在燃料电池系统的启动操作期间,可以使用高温下的放电气体迅速升高电池的温度, 氢气的燃烧热和加热的冷却水,从而显着减少燃料电池系统正常运行所需的时间。
    • 6. 发明授权
    • Method of rapidly increasing internal temperature of a fuel cell stack during starting of fuel cell system
    • 在燃料电池系统启动期间快速提高燃料电池堆内部温度的方法
    • US08343677B2
    • 2013-01-01
    • US11870608
    • 2007-10-11
    • Tae-won SongDuk-jin OhHyun-chul LeeDong-kwan KimYong Wang
    • Tae-won SongDuk-jin OhHyun-chul LeeDong-kwan KimYong Wang
    • H01M8/06
    • H01M8/04268H01M8/04029
    • A method of starting a polymer electrolyte membrane fuel cell (PEMFC) stack by rapidly increasing its temperature. The PEMFC stack includes: a first flow line connected to cooling plates; a second flow line connected to the cooling plates; a coolant reservoir; a heat exchanger; a by-pass line; a heating element; a first valve installed between the first flow line and the heat exchanger; and a second valve that selectively connects the coolant reservoir, the second flow line, and the by-pass line. The method of starting a PEMFC stack includes: closing the first valve and controlling the second valve so that the second flow line and the by-pass line are connected to each other, and the coolant in the coolant reservoir is not connected to the second flow line and the by-pass line; and heating the coolant in the by-pass line.
    • 通过快速升高其温度来启动聚合物电解质膜燃料电池(PEMFC)堆叠的方法。 PEMFC堆叠包括:连接到冷却板的第一流线; 连接到冷却板的第二流线; 冷却剂储存器; 热交换器; 旁路线 加热元件; 安装在所述第一流动管线和所述热交换器之间的第一阀; 以及选择性地连接冷却剂储存器,第二流动管线和旁路管线的第二阀。 启动PEMFC堆叠的方法包括:关闭第一阀并控制第二阀,使得第二流动管线和旁路管线彼此连接,并且冷却剂储存器中的冷却剂不连接到第二流量 线和旁路线; 并在旁路管线中加热冷却剂。