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    • 2. 发明授权
    • Power conditioner and method of operating the same
    • 功率调节器及其操作方法
    • US07656057B2
    • 2010-02-02
    • US11860768
    • 2007-09-25
    • Yong WangDuk-Jin OhSee-young Choi
    • Yong WangDuk-Jin OhSee-young Choi
    • H02J9/00H01M8/12
    • H02J7/34H02J2001/004Y10T307/615
    • A power conditioner for supplying controlled power generated from a power source such as a fuel cell or a solar battery to a load. The power conditioner includes a main converter converting the output voltage of the power source; an auxiliary converter converting the output voltage of the main converter to a voltage that is supplied to BOP elements; and a direct connecting line connecting the output voltage of the power source to the auxiliary converter bypassing the main converter. Accordingly, because the voltage for the power to be supplied to the BOP elements is converted only once, the power loss can be significantly reduced compared to the power loss from a conventional power conditioner.
    • 一种用于将诸如燃料电池或太阳能电池的电源产生的受控电力提供给负载的功率调节器。 功率调节器包括转换电源的输出电压的主转换器; 辅助转换器将主转换器的输出电压转换为提供给BOP元件的电压; 以及将电源的输出电压连接到旁路主转换器的辅助转换器的直接连接线。 因此,因为供给BOP元件的电力的电压仅被转换一次,所以与以往的功率调节器的功率损失相比,能够显着地降低功率损耗。
    • 3. 发明授权
    • Installation method of optical fiber composite electric power cable and cable structure therefor
    • 光纤复合电力电缆的安装方法及其电缆结构
    • US07574086B2
    • 2009-08-11
    • US10593166
    • 2005-06-30
    • Duk-Jin OhJong-Cheol Kim
    • Duk-Jin OhJong-Cheol Kim
    • G02B6/44H01B11/22
    • G02B6/4464G02B6/4416
    • Disclosed is installation of an optical fiber composite electric power cable. An installation method of an optical fiber composite electric power cable includes installing an electric power cable including a conductor and an air-blown installation tube therein at an installation region; connecting tubes of adjacent electric power cables to each other, in an electric power cable connection box; and installing an optical fiber unit into the connected tubes by air pressure. Also, a cable structure used for installing the optical fiber composite electric power cable includes a conductor for electric power transmission; an insulator surrounding the conductor; an air-blown installation tube provided outside of the insulator; and a corrosion-protective layer provided to an outermost layer of the cable.
    • 公开了光纤复合电力电缆的安装。 光纤复合电力电缆的安装方法包括在安装区域内安装包括导体和吹风安装管的电力电缆; 在电力电缆接线盒中连接相邻电力电缆的管道; 并通过空气压力将光纤单元安装到连接的管中。 此外,用于安装光纤复合电力电缆的电缆结构包括用于电力传输的导体; 围绕导体的绝缘体; 设置在所述绝缘体的外侧的吹风安装管; 以及设置在电缆的最外层的防腐蚀层。
    • 4. 发明申请
    • METHOD OF STARTING FUEL CELL SYSTEM
    • 启动燃料电池系统的方法
    • US20090035611A1
    • 2009-02-05
    • US11870608
    • 2007-10-11
    • Tae-won SONGDuk-jin OHHyun-chul LEEDong-kwan KIMYong WANG
    • Tae-won SONGDuk-jin OHHyun-chul LEEDong-kwan KIMYong WANG
    • H01M2/00
    • H01M8/04268H01M8/04029
    • Provided is a method of starting a polymer electrolyte membrane fuel cell (PEMFC) stack by rapidly increasing the temperature of the PEMFC stack. The PEMFC stack includes: a first flow line that is connected to upper parts of cooling plates installed in a plurality of unit cells of the PEMFC stack; a second flow line that is connected to lower parts of the cooling plates; a coolant reservoir installed between the first flow line and the second flow line; a heat exchanger installed between the first flow line and the coolant reservoir; a by-pass line that connects a point between the coolant reservoir and the second flow line, to the first flow line; a heating element that heats coolant in the by-pass line; 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 increasing the temperature of the PEMFC stack by heating the coolant in the by-pass line, using the heating element.
    • 提供通过快速增加PEMFC堆的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:第一流线,其连接到安装在PEMFC堆叠的多个单元电池中的冷却板的上部; 第二流线连接到冷却板的下部; 安装在所述第一流动管线和所述第二流动管线之间的冷却剂储存器; 安装在所述第一流动管线和所述冷却剂储存器之间的热交换器; 将冷却剂储存器和第二流动管线之间的点连接到第一流动管线的旁路管线; 加热元件,其加热旁路线路中的冷却剂; 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; 并且通过使用加热元件加热旁路线中的冷却剂来增加PEMFC堆的温度。
    • 5. 发明申请
    • Installation Method of Optical Fiber Composite Electric Power Cable and Cable Structure Therefor
    • 光纤复合电力电缆及其电缆结构的安装方法
    • US20080247715A1
    • 2008-10-09
    • US10593166
    • 2005-06-30
    • Duk-Jin OhJong-Cheol Kim
    • Duk-Jin OhJong-Cheol Kim
    • G02B6/44
    • G02B6/4464G02B6/4416
    • Disclosed is installation of an optical fiber composite electric power cable. An installation method of an optical fiber composite electric power cable includes installing an electric power cable including a conductor and an air-blown installation tube therein at an installation region; connecting tubes of adjacent electric power cables to each other, in an electric power cable connection box; and installing an optical fiber unit into the connected tubes by air pressure. Also, a cable structure used for installing the optical fiber composite electric power cable includes a conductor for electric power transmission; an insulator surrounding the conductor; an air-blown installation tube provided out of the insulator; and a corrosion-protective layer provided to an outermost layer of the cable.
    • 公开了光纤复合电力电缆的安装。 光纤复合电力电缆的安装方法包括在安装区域内安装包括导体和吹风安装管的电力电缆; 在电力电缆接线盒中连接相邻电力电缆的管道; 并通过空气压力将光纤单元安装到连接的管中。 此外,用于安装光纤复合电力电缆的电缆结构包括用于电力传输的导体; 围绕导体的绝缘体; 设置在绝缘体外的吹风安装管; 以及设置在电缆的最外层的防腐蚀层。
    • 8. 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。