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    • 1. 发明授权
    • Method for detecting a gas contained in a fluid with use of a gas sensor
    • 使用气体传感器检测流体中所含气体的方法
    • US08646310B2
    • 2014-02-11
    • US13347484
    • 2012-01-10
    • Kohei TakahashiTsutomu KannoAkihiro SakaiAtsushi OmoteYuka Yamada
    • Kohei TakahashiTsutomu KannoAkihiro SakaiAtsushi OmoteYuka Yamada
    • G01N25/32
    • G01N25/32G01N27/16
    • A gas sensor includes a catalyst layer and a pipe-shaped thermoelectric power generation device. The pipe-shaped thermoelectric power generation device includes an internal through-hole along the axial direction of the pipe-shaped thermoelectric power generation device, a plurality of first cup-shaped components each made of metal, a plurality of second cup-shaped components each made of thermoelectric material, and first and second electrodes disposed at the ends of the pipe-shaped power generation device. The plurality of the first cup-shaped components and the plurality of the plurality of second cup-shaped components are arranged alternately and repeatedly along the axial direction. The catalyst layer is arranged on the internal surface of the internal through-hole. A method for detecting or measuring gas by using the gas sensor includes supplying a fluid containing the gas into the internal through-hole of the gas sensor, and detecting voltage between the first and second electrodes.
    • 气体传感器包括催化剂层和管状热电发电装置。 管状热电发电装置具有沿着管状热电发电装置的轴向的内部通孔,多个第一杯状部件,各自由金属制成,多个第二杯状部件各自由 由热电材料制成,第一和第二电极设置在管状发电装置的端部。 多个第一杯状部件和多个第二杯状部件沿轴向交替重复配置。 催化剂层布置在内部通孔的内表面上。 通过使用气体传感器来检测或测量气体的方法包括将含有气体的流体供应到气体传感器的内部通孔中,以及检测第一和第二电极之间的电压。
    • 2. 发明申请
    • METHOD FOR DETECTING A GAS CONTAINED IN A FLUID WITH USE OF A GAS SENSOR
    • 用于检测含有气体传感器的流体中的气体的方法
    • US20120103067A1
    • 2012-05-03
    • US13347484
    • 2012-01-10
    • Kohei TakahashiTsutomu KannoAkihiro SakaAtsuschi OmoteYuka Yamada
    • Kohei TakahashiTsutomu KannoAkihiro SakaAtsuschi OmoteYuka Yamada
    • G01N25/32
    • G01N25/32G01N27/16
    • A gas sensor includes a catalyst layer and a pipe-shaped thermoelectric power generation device. The pipe-shaped thermoelectric power generation device includes an internal through-hole along the axial direction of the pipe-shaped thermoelectric power generation device, a plurality of first cup-shaped components each made of metal, a plurality of second cup-shaped components each made of thermoelectric material, and first and second electrodes disposed at the ends of the pipe-shaped power generation device. The plurality of the first cup-shaped components and the plurality of the plurality of second cup-shaped components are arranged alternately and repeatedly along the axial direction. The catalyst layer is arranged on the internal surface of the internal through-hole. A method for detecting or measuring gas by using the gas sensor includes supplying a fluid containing the gas into the internal through-hole of the gas sensor, and detecting voltage between the first and second electrodes.
    • 气体传感器包括催化剂层和管状热电发电装置。 管状热电发电装置具有沿着管状热电发电装置的轴向的内部通孔,多个第一杯状部件,各自由金属制成,多个第二杯状部件各自由 由热电材料制成,第一和第二电极设置在管状发电装置的端部。 多个第一杯状部件和多个第二杯状部件沿轴向交替重复配置。 催化剂层布置在内部通孔的内表面上。 通过使用气体传感器来检测或测量气体的方法包括将含有气体的流体供应到气体传感器的内部通孔中,以及检测第一和第二电极之间的电压。
    • 3. 发明申请
    • THERMOELECTRIC DEVICE AND POWER GENERATION METHOD USING THE SAME
    • 热电装置及其发电方法
    • US20100282286A1
    • 2010-11-11
    • US12811182
    • 2009-10-26
    • Tsutomu KannoAkihiro SakaiKohei TakahashiSatoshi YotsuhashiHideaki Adachi
    • Tsutomu KannoAkihiro SakaiKohei TakahashiSatoshi YotsuhashiHideaki Adachi
    • H01L35/30
    • H01L35/32
    • The thermoelectric device of the present invention includes a first electrode and a second electrode that are disposed to be opposed to each other, and a laminate that is interposed between the first electrode and the second electrode, is connected electrically to both the first electrode and the second electrode, and is layered in the direction orthogonal to an electromotive-force extracting direction, which is the direction in which the first electrode and the second electrode are opposed to each other. The laminate includes a thermoelectric material layer as well as a first holding layer and a second holding layer that are disposed so as to interpose the thermoelectric material layer therebetween, the first holding layer and the second holding layer have layered structures with metals and insulators that are layered alternately, respectively, a layered direction of the layered structures is parallel with a layer surface of the laminate and is inclined with respect to the electromotive-force extracting direction, the insulators of the first holding layer and the insulators of the second holding layer are disposed so as to appear alternately in the layered direction, and a temperature difference is generated in the direction orthogonal to the layered direction of the laminate and orthogonal to the electromotive-force extracting direction, so that electrical power is output through the first electrode and the second electrode.
    • 本发明的热电元件包括​​彼此相对设置的第一电极和第二电极,并且插入在第一电极和第二电极之间的层压体电连接到第一电极和第二电极 并且在与作为第一电极和第二电极彼此相对的方向的电动势提取方向正交的方向上层叠。 层压体包括热电材料层以及设置成将热电材料层介于其间的第一保持层和第二保持层,第一保持层和第二保持层具有金属和绝缘体的分层结构, 层叠结构的层叠方向分别与层叠体的层面平行,相对于电动势提取方向倾斜,第一保持层的绝缘体和第二保持层的绝缘体为 被配置为在层叠方向上交替出现,并且在与层叠体的层叠方向正交的方向上产生与电动势提取方向正交的方向的温度差,从而通过第一电极和 第二电极。
    • 4. 发明授权
    • Thermoelectric device and power generation method using the same
    • 热电装置及其发电方法采用相同方式
    • US07994415B2
    • 2011-08-09
    • US12811182
    • 2009-10-26
    • Tsutomu KannoAkihiro SakaiKohei TakahashiSatoshi YotsuhashiHideaki Adachi
    • Tsutomu KannoAkihiro SakaiKohei TakahashiSatoshi YotsuhashiHideaki Adachi
    • H01L35/30
    • H01L35/32
    • The thermoelectric device of the present invention includes a first electrode and a second electrode that are disposed to be opposed to each other, and a laminate that is interposed between the first electrode and the second electrode, is connected electrically to both the first electrode and the second electrode, and is layered in the direction orthogonal to an electromotive-force extracting direction, which is the direction in which the first electrode and the second electrode are opposed to each other. The laminate includes a thermoelectric material layer as well as a first holding layer and a second holding layer that are disposed so as to interpose the thermoelectric material layer therebetween, the first holding layer and the second holding layer have layered structures with metals and insulators that are layered alternately, respectively, a layered direction of the layered structures is parallel with a layer surface of the laminate and is inclined with respect to the electromotive-force extracting direction, the insulators of the first holding layer and the insulators of the second holding layer are disposed so as to appear alternately in the layered direction, and a temperature difference is generated in the direction orthogonal to the layered direction of the laminate and orthogonal to the electromotive-force extracting direction, so that electrical power is output through the first electrode and the second electrode.
    • 本发明的热电元件包括​​彼此相对设置的第一电极和第二电极,并且插入在第一电极和第二电极之间的层叠体电连接到第一电极和第二电极 并且在与作为第一电极和第二电极彼此相对的方向的电动势提取方向正交的方向上层叠。 层压体包括热电材料层以及设置成将热电材料层介于其间的第一保持层和第二保持层,第一保持层和第二保持层具有金属和绝缘体的分层结构, 层叠结构的层叠方向分别与层叠体的层面平行,相对于电动势提取方向倾斜,第一保持层的绝缘体和第二保持层的绝缘体为 被配置为在层叠方向上交替出现,并且在与层叠体的层叠方向正交的方向上产生与电动势提取方向正交的方向的温度差,从而通过第一电极和 第二电极。