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阳极支撑型
相关语句
  anode-supported
    A review of the preparation methods of anode-supported SOFC anodes
    阳极支撑型SOFC阳极的制备方法
    Performance of Anode-Supported Single-Chamber Solid Oxide Fuel Cells
    阳极支撑型单气室固体氧化物燃料电池的性能
短句来源
    From theviewpoint of cost reduction and long-term stability, many researchers have paidtheir attentions to fabrication of anode-supported SOFCs operating at reducedtemperature (600~800℃).
    制备阳极支撑型固体氧化物燃料电池,降低电池工作温度(600~800℃),从而降低成本延长电池寿命已成为目前研究的热点。
短句来源
    State of the art anode-supported solid oxide fuel cell (SOFC) with thin YSZ electrolyte leads the development of intermediate temperature SOFCs.
    阳极支撑型固体氧化物燃料电池(SOFCs)是中温(800℃以下)SOFCs的主要类型之一,而阴极极化电阻是限制电池中温性能的关键因素。 因此,改善阴极/电解质界面结构,开发高性能复合阴极是目前中温SOFCs的研究热点。
短句来源
    An anode-supported single-chamber solid oxide fuel cell(SC-SOFC) with dense yttria-stabilized zirconia film as the electrolyte was fabricated by the slurry spin coating technique.
    使用浆料旋涂法制备了致密氧化钇稳定的氧化锆电解质薄膜,进而组装成阳极支撑型单气室固体氧化物燃料电池.
短句来源
更多       
  anode-supported
    A review of the preparation methods of anode-supported SOFC anodes
    阳极支撑型SOFC阳极的制备方法
    Performance of Anode-Supported Single-Chamber Solid Oxide Fuel Cells
    阳极支撑型单气室固体氧化物燃料电池的性能
短句来源
    From theviewpoint of cost reduction and long-term stability, many researchers have paidtheir attentions to fabrication of anode-supported SOFCs operating at reducedtemperature (600~800℃).
    制备阳极支撑型固体氧化物燃料电池,降低电池工作温度(600~800℃),从而降低成本延长电池寿命已成为目前研究的热点。
短句来源
    State of the art anode-supported solid oxide fuel cell (SOFC) with thin YSZ electrolyte leads the development of intermediate temperature SOFCs.
    阳极支撑型固体氧化物燃料电池(SOFCs)是中温(800℃以下)SOFCs的主要类型之一,而阴极极化电阻是限制电池中温性能的关键因素。 因此,改善阴极/电解质界面结构,开发高性能复合阴极是目前中温SOFCs的研究热点。
短句来源
    An anode-supported single-chamber solid oxide fuel cell(SC-SOFC) with dense yttria-stabilized zirconia film as the electrolyte was fabricated by the slurry spin coating technique.
    使用浆料旋涂法制备了致密氧化钇稳定的氧化锆电解质薄膜,进而组装成阳极支撑型单气室固体氧化物燃料电池.
短句来源
更多       
  “阳极支撑型”译为未确定词的双语例句
    With the help of board shell theory of solid state dynamics, the thermal stress situation among each sheet in anode support planar SOFC cell and its distribution corresponding all kinds of boundary condition were analyzed.
    运用固体力学中的板壳理论分析了阳极支撑型平板SOFC单电池中各层的热应力状态 ,在各类边界条件下得到了相应的热应力分布 ,认为在通常的边界条件即连接板协同膨胀情况下单电池受拉应力 .
短句来源
    FABRICATION OF ANODE SUPPORTED PEN FOR SOLID OXIDE FUEL CELL
    阳极支撑型固体氧化物燃料电池的研制
短句来源
    Fabrication of anode supported PEN for solid oxide fuel cell
    阳极支撑型固体氧化物燃料电池的研制
短句来源
    Screen-printing technology was developed to fabricate YB2BOB3B-stabilized ZrOB2B(YSZ) electrolyte thin films onto NiO-YSZ porous anode substrates.
    本文开发了丝网印刷法制备阳极支撑型电解质膜工艺。 首先在多孔NiO-YSZ阳极支撑体上印刷制备了YSZ电解质膜。
短句来源
    ScSZ electrolytes doped with ceria were synthesized and characterized.
    论文开展了1Ce10ScZr电解质修饰阳极支撑型SOFC阴极/电解质界面研究。
短句来源
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  anode-supported
A tubular anode-supported solid oxide fuel cell with a double-layer anode for the direct conversion of CH4 has been prepared and operated at 800?°C successfully.
      
Comparison of polarization effects on the cell performance between the electrolyte-supported and anode-supported cells showed that the latter would give a better cell performance.
      
Development of LSM/YSZ composite cathode for anode-supported solid oxide fuel cells
      
A power density of ~1 W cm-2 at 800 °C was achieved with an anode-supported cell using an LSM-B/YSZ composite cathode.
      
As of this year, the materials development as well as the component manufacturing was focused on anode-supported cells.
      
更多          
  anode-supported
A tubular anode-supported solid oxide fuel cell with a double-layer anode for the direct conversion of CH4 has been prepared and operated at 800?°C successfully.
      
Comparison of polarization effects on the cell performance between the electrolyte-supported and anode-supported cells showed that the latter would give a better cell performance.
      
Development of LSM/YSZ composite cathode for anode-supported solid oxide fuel cells
      
A power density of ~1 W cm-2 at 800 °C was achieved with an anode-supported cell using an LSM-B/YSZ composite cathode.
      
As of this year, the materials development as well as the component manufacturing was focused on anode-supported cells.
      
更多          


With the help of board shell theory of solid state dynamics, the thermal stress situation among each sheet in anode support planar SOFC cell and its distribution corresponding all kinds of boundary condition were analyzed. It is concluded that in ordinary boundary condition (corresponding interconnect coordinated expansion) each sheet of the cell bears stretch stress, and it is recommended that reducing the thermal expansion coefficient of interconnect α 0 may be the main measure to avoid the fracture...

With the help of board shell theory of solid state dynamics, the thermal stress situation among each sheet in anode support planar SOFC cell and its distribution corresponding all kinds of boundary condition were analyzed. It is concluded that in ordinary boundary condition (corresponding interconnect coordinated expansion) each sheet of the cell bears stretch stress, and it is recommended that reducing the thermal expansion coefficient of interconnect α 0 may be the main measure to avoid the fracture of cell caused by stretch stress. There is no thermal stress under the condition of free boundary, but there is the largest bend. Planishing is necessary when green tape is sintered.

运用固体力学中的板壳理论分析了阳极支撑型平板SOFC单电池中各层的热应力状态 ,在各类边界条件下得到了相应的热应力分布 ,认为在通常的边界条件即连接板协同膨胀情况下单电池受拉应力 .防止拉应力导致单电池破裂的主要措施是尽量减少连接板的热膨胀系数α0 ,使 (α0 -αi)更小 .自由边界没有热应力 ,但有最大的热变形 ,因此生胚烧结成形时必须加外力压紧

Fabrication process for anode supported planar PEN of intermediate temperature solid oxide fuel cell are introduced in this paper,tape casting and screen printing methods were used in the preparation progress.GDC powder was achieved by solid reaction method.anode was made by tape casting.Electrolyte and cathode were made by screen printing.The GDC powder's component and thermal expand coefficient,as well as the porosity,density and microstructure of anode and electrolyte were investigated.The test results have...

Fabrication process for anode supported planar PEN of intermediate temperature solid oxide fuel cell are introduced in this paper,tape casting and screen printing methods were used in the preparation progress.GDC powder was achieved by solid reaction method.anode was made by tape casting.Electrolyte and cathode were made by screen printing.The GDC powder's component and thermal expand coefficient,as well as the porosity,density and microstructure of anode and electrolyte were investigated.The test results have shown that an bi-layer with dense thin electrolyte film and porous anode support,and with good coherency of the electrolyte film to the anode can be realized after co-sintering the green tape at 1350℃ by optimizing the power characteristics of the starting materials in the slurry.

详细介绍了使用流延法及丝网印刷法制备阳极支撑型中温SOFC单电池的工艺过程 ;采用固相反应法制备出Gd2 O3 掺杂CeO2(GDC) ,采用流延法制备阳极 ,采用丝网印刷法制备电解质层及阴极 ,对GDC的相成分进行了测试分析 ;对阳极和电解质烧结后的孔隙密、密度及显微组织进行了表征。试验结果表明 ,采用流延法及丝网印刷法 ,通过选取合适的粉末原料 ,调整并优化制备过程的工艺参数 ,可以制备出具有良好组织结构和性能的阳极支撑型中温SOFC单电池

Fabrication process for anode supported planar single cell of solid oxide fuel cell used in intermediate temperature was introduced. Tape casting and screen printing methods were used. Gd2O3 doped CeO2(GDC) powders were prepared by solid reaction method. Anode tape was produced by tape casting. An electrolyte and cathode were produced by screen printing. The GDC powder component, thermal expand coefficient, the porosity, density and microstructure of anode and electrolyte were investigated. It was shown that...

Fabrication process for anode supported planar single cell of solid oxide fuel cell used in intermediate temperature was introduced. Tape casting and screen printing methods were used. Gd2O3 doped CeO2(GDC) powders were prepared by solid reaction method. Anode tape was produced by tape casting. An electrolyte and cathode were produced by screen printing. The GDC powder component, thermal expand coefficient, the porosity, density and microstructure of anode and electrolyte were investigated. It was shown that a bi-layer with dense thin electrolyte film and porous anode support, and with good coherency of the electrolyte film to the anode could be realized after co-sintering the green tape at 1?350?℃ by optimizing the power characteristics of the starting materials in the slurry.

采用固相反应法制备出Gd2 O3 掺杂CeO2 (GDC) ;用流延法制备阳极 ;用丝网印刷法制备电解质层及阴极 ;对GDC的相成分和热膨胀系数进行了测试分析 ;对阳极和电解质烧结后的孔隙率、密度及显微组织进行了表征 .试验结果表明 ,采用流延法及丝网印刷法 ,通过选取合适的粉末原料 ,调整并优化制备过程的工艺参数 ,可以制备出具有良好组织结构和性能的阳极支撑型中温SOFC单电池

 
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