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阳极支撑
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  anode support
     Performances of La_(0.8)Sr_(0.2)Ga_(0.85)Mg_(0.15)O_(2.825) Film Solid Oxide Fuel Cell Prepared on NiO/SDC Anode Support
     NiO/SDC阳极支撑体上制备La_(0.8)Sr_(0.2)Ga_(0.85)Mg_(0.15)O_(2.825)膜的固体氧化物燃料电池性能
短句来源
     The experimental results show anode support SOFC has lower activation polarization and diffusing polarization than electrolyte-supported SOFC in 800 ℃. The cell output density also increases 0.05 W/cm2, is up to 0.13 W/cm2.
     实验结果表明,在800℃下阳极支撑SOFC的活化极化和欧姆极化均小于电解质支撑SOFC,输出功率密度也提高了0. 05 W/cm2,达到0. 13 W/cm2。
短句来源
     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
     (5) The anode support SOFC is fabricated for reducing SOFC operating temperature.
     (5) 为了实现SOFC的中温化运行,研究了平板式阳极支撑SOFC的制备方法。
短句来源
     For improving the cell performance, influence of anode material content and manufature process on anode structure and performance is studied. The preparation of planar anode support SOFC is investigated.
     本文为了提高SOFC单电池的发电性能,研究了阳极材料组分和制备工艺对阳极结构和性能的影响,还探索了阳极支撑平板式SOFC的制备方法。
短句来源
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  anode supported
     Study of SrO-La_2O_3-Al_2O_3-B_2O_3-SiO_2 crystallite glass sealing materials for anode supported ITSOFC
     阳极支撑型ITSOFC密封材料SrO-La_2O_3-Al_2O_3-B_2O_3-SiO_2微晶玻璃的研究
短句来源
     LSM-YSZ Cathode of Ni-YSZ Anode Supported SOFC Modified by Homogeneity Ion of LSM Infiltration
     Ni-YSZ阳极支撑SOFC阴极LSM-YSZ的LSM同源离子渗透改性
短句来源
     Preparation of Ni/YSZ Anode Supported YSZ Electrolyte Film
     Ni/YSZ阳极支撑YSZ固体电解质复合膜的制备
     Ni-YSZ│YSZ│LSM anode supported PEN for solid oxide fuel cell was fabricated.
     制备了Ni/YS│YSZ│LSM[YSZ——Y2O3掺杂(稳定)的ZrO2;LSM——锰酸镧即La0.85Sr0.15MnO3]阳极支撑单体固体氧化物燃料电池(SOFC)。
短句来源
     Tape cast method was applied to prepare green sheets of Ni/YSZ anode supported YSZ thin film.
     采用流延法制备Ni/YSZ阳极支撑体 YSZ电解质复合膜素坯.
短句来源
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  anode-support
     Thermal stress modeling of anode-support planar SOFC
     阳极支撑平板SOFC单电池热应力数学模型分析
短句来源
  “阳极支撑”译为未确定词的双语例句
     Properties of Porous Anodic Support Ni/YSZ
     多孔阳极支撑体Ni/YSZ的性能研究
     Research on Anode-supported Sofc and Doping or Coating Ni-YSZ
     阳极支撑SOFC及Ni-YSZ掺杂包覆研究
短句来源
     The results show that the NiO can be completely reduced into metal Ni when the sample of NiO/YSZ is under hydrogen atmosphere at 850 ℃ for 30 min.
     结果表明,NiO/YSZ样品在氢气气氛下850℃还原30 min,NiO可以完全还原成金属Ni。 成孔剂含量在5%-9%的范围内,可获得孔隙率为30%-35%的Ni/YSZ阳极支撑体。
     The samples of porous NiO/YSZ were prepared using starch as pore-forming, which sintered at 1400℃ for 10 h. The NiO/YSZ was reduced into the porous Ni/YSZ in hydrogen atmosphere.
     以淀粉为成孔剂,在1400℃烧结10 h制备出多孔NiO/YSZ样品,在氢气气氛下将其还原获得了多孔阳极支撑体Ni/YSZ。
     The open circuit voltage(OCV)of the cells reached 1.097 3 V and maximum power density 0.13 W·cm-2 at 800 ℃ with 250 mL·min-1 of hydrogen air flow rate.
     考察了电池电性能,800℃下,阳极H2进气流量为250mL·min-1时,电池开路电压1.0973V,最大比功率0.13W·cm-2。 进一步优化电极结构,可制备高性能的阳极支撑SOFC。
短句来源
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  anode support
An average burst strength of 97 ± 28 MPa was observed for 8YSZ electrolyte tubes and 72 ± 23 MPa and 70 ± 16 MPa for as-sintered and reduced anode support tubes, respectively.
      
A method for manufacturing of profiled Ni-YSZ anode support sheets by water-based viscous processing has been developed.
      
The results reveal a linear dependence between the conductivity and pre-test reduction temperature: the conductivity increases by a factor of about 6 when reducing the anode support at 1000°C compared to 650°C.
      
And apparently, the anode support doesn't play an important role in the anode's impedance.
      
Electrochemically, there is no clear explanation as well, why the different anode support could have an effect on the degradation.
      
更多          
  anode supported
Fabrication of anode supported thick film ceria electrolytes for IT-SOFCs
      
Anode supported thick film ceria electrolyte unit cells were fabricated using a colloidal dip coating method for IT-SOFCs.
      
Anode supported structure schematic Several anode supported cells were constructed.
      
As a consequence, anode supported fuel cell structure was introduced as objective 4.
      
The Argonne Lab Research group is combining CGO electrolyte technology with the anode supported design for operation at o C.
      
更多          
  anode-support
The anode-support system: an alternative for the electrorefining of tin in sulphuric acid medium
      
This paper describes a study of the application of an anode-support system to the electrorefining of tin in sulphuric acid medium.
      
The authors have established that it is feasible to utilize a metallic basket of AISI-316 stainless steel mesh as the anode-support, with granules of 97% tin inside the basket.
      
It is possible to utilize the anode-support system under the same conditions used for the industrial electrorefining of tin with conventional cast anodes.
      
In fact, electrolyses of 10 days duration can be carried out continuously using the anode-support system, with the cell voltage remaining practically constant.
      
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

With an organic based tape casting processing, green NiO( Ni)/ SCO anode supports with 40%~80%Ni content were prepared and sintered at temperatures ranging from 1 200℃~1 450℃. The density and porosity were measured and the pore size and their distribution were checked by a N2 bubble point method for the green and sintered anode supports. The microstructure and electrical conductivity were also tested by scanning electron microscope (SEM) and with a four point technique, respectively. It was found that the...

With an organic based tape casting processing, green NiO( Ni)/ SCO anode supports with 40%~80%Ni content were prepared and sintered at temperatures ranging from 1 200℃~1 450℃. The density and porosity were measured and the pore size and their distribution were checked by a N2 bubble point method for the green and sintered anode supports. The microstructure and electrical conductivity were also tested by scanning electron microscope (SEM) and with a four point technique, respectively. It was found that the porosity and pore size and their distribution were greatly dependent on the sintering temperature of green tapes, all of which decreased with increase of sintering temperature, consistent with the SEM observation. Furthermore, an increase of Ni content in the anode supports results in the decrease of porosity and mean pore size. It is also shown that the processing parameters as well as the Ni content play key roles in determining the electrical conductivity of Ni/SCO anodes.

以有机基流延工艺制备出了不同Ni含量的NiO/Sm0.2Ce0.8O1.9(NiO/SCO)燃料电池阳极支撑体膜。研究了制备工艺条件和Ni含量等因素对阳极膜微结构和性能的影响。试验结果表明:NiO/SCO流延生坯的烧结温度对最终阳极烧结体的孔隙特性有着决定的影响;为获得具有较高孔隙率和一定孔径分布的阳极烧结体,生坯的烧结温度应不超过1350℃;此外,不同含Ni量阳极流延生坯的烧结行为及烧结体的性能也存在明显的差异,在相同的烧结温度下,高含Ni量阳极烧结体的孔隙率和孔径都明显小于低含Ni量的烧结体,其晶粒的平均尺寸则增大。对不同温度下Ni/SCO阳极电导率的测量结果则表明,Ni/SCO阳极的导电性能也与其Ni含量和制备工艺有着密切的关系。

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

 
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