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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
    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
    Planar anode-supported solid oxide fuel cell (SOFC) is an important aspect in SOFC research field. Preparation of anode substrate membranes, as the mechanical supports of SOFC PEN sandwich structure, is the most pivotal technique.
    平板式阳极支撑型固体氧化物燃料电池 (SOFC)是现在SOFC研究领域的一个重要方向,作为 SOFC三明治结构力学支架的阳极基底膜的制备是实现该设计思路的最为关键的技术。
    Solid oxide fuel cell (SOFC) is expected to be a candidate of the next generation power source for its high efficiency when combined with a bottoming power cycle utilizing its high-temperature waste heat. As a major component of anode-supported planar SOFC's polarization loss, anode concentration over-potential ηcon,a is mainly determined by structure parameters of anode and can be adjusted in preparing and operating process.
    阳极浓差极化过电势ηcon,a是阳极支撑型SOFC能量损失的主要因素之一,研究浓差极化过电势的影响因素,对提高SOFC的性能具有重要意义。
  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
    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
    Planar anode-supported solid oxide fuel cell (SOFC) is an important aspect in SOFC research field. Preparation of anode substrate membranes, as the mechanical supports of SOFC PEN sandwich structure, is the most pivotal technique.
    平板式阳极支撑型固体氧化物燃料电池 (SOFC)是现在SOFC研究领域的一个重要方向,作为 SOFC三明治结构力学支架的阳极基底膜的制备是实现该设计思路的最为关键的技术。
    Solid oxide fuel cell (SOFC) is expected to be a candidate of the next generation power source for its high efficiency when combined with a bottoming power cycle utilizing its high-temperature waste heat. As a major component of anode-supported planar SOFC's polarization loss, anode concentration over-potential ηcon,a is mainly determined by structure parameters of anode and can be adjusted in preparing and operating process.
    阳极浓差极化过电势ηcon,a是阳极支撑型SOFC能量损失的主要因素之一,研究浓差极化过电势的影响因素,对提高SOFC的性能具有重要意义。
  “阳极支撑型”译为未确定词的双语例句
    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
    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
    The properties of single cell of electrolyte supported and anode supported SC-SOFC and the test conditions of single chamber were researched.
    对于电解质支撑的电池,有必要将阳极做得厚些; 阳极支撑型SC-SOFC的阻抗较电解质支撑的电池小很多,并且电池性能也较好,这充分体现了阳极支撑型电池的优势。
短句来源
    In this paper, anode fabrication is based on the preparation of a porous scandia stabilized zirconia (ScSZ) matrix by a dual tape casting method, into which electronically conductive and catalytic components are added through impregnation with aqueous solutions of Cu(NO3)2 and Ce(NO3)3 and following calcination. The performance characteristics of cells produced using this method while operating with H2, CH4 and C2H5OH+H2O are also presented.
    本文采用双层流延成型法制备阳极支撑型复合膜,然后将其浸渍在硝酸铜溶液和硝酸铈溶液中,低温灼烧后,即得到 Cu—CeO2-ScSZ(氧化钪稳定的氧化锆)复合阳极,并进一步研究了该复合阳极在以氢气、甲烷和乙醇为燃料时固体氧化物燃料电池的性能及其时效特征。
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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          


The linear expansion coefficient of SrO-La_2O_3-Al_2O_3-B_2O_3-SiO_2 sealing materials with different composition,which for anode supported intermediate temperature solid oxide fuel cells(ITSOFC) was studied.The crystallite content of SrCO_3 28.14mol%,La_2O_3 21.17mol%,Al_2O 7.223mol%,H_2BO_3 41.72mol%,SiO_2 1.76 mol%(SLABS3) met the requirements best.DTA analysis showed that the transition and crystallization temperature of SLABS3 was 670~760℃ and 813~840℃ respectively,but for the soften temperature was 900℃.XRD...

The linear expansion coefficient of SrO-La_2O_3-Al_2O_3-B_2O_3-SiO_2 sealing materials with different composition,which for anode supported intermediate temperature solid oxide fuel cells(ITSOFC) was studied.The crystallite content of SrCO_3 28.14mol%,La_2O_3 21.17mol%,Al_2O 7.223mol%,H_2BO_3 41.72mol%,SiO_2 1.76 mol%(SLABS3) met the requirements best.DTA analysis showed that the transition and crystallization temperature of SLABS3 was 670~760℃ and 813~840℃ respectively,but for the soften temperature was 900℃.XRD test demonstrated that there was no reaction between the crystallite glass and Ni-La_0.3Ce_0.7O_1.85(Ni-LDC)anode materials.SEM found that the glass bonded well with the anode after heat-treated at 850℃ for 100h and EPMA analysis demonstrated that although the Ce element would diffuse 10μm to the anode,none element of the crystallite glass was found to diffuse to the anode.The OCV of the simulated cell sealed with SLABS3 proved that the sealing results and stability were satisfied.

研究了应用于阳极支撑型的中温固体氧化物燃料电池(ITSOFC)密封的SrO-La2O3-Al2O3-B2O3-SiO2体系微晶玻璃不同组分的线膨胀率,结果表明当微晶玻璃粉组成SrCO328.14%(摩尔分数),La2O321.17%(摩尔分数),Al2O37.22%(摩尔分数),H2BO341.72%(摩尔分数),SiO21.76%(摩尔分数)(SLABS3)时,最符合ITSOFC密封要求。差热分析结果表明SLABS3的玻璃转变温度在670℃~760℃之间,结晶温度在813~840℃之间,玻璃软化点约在900℃,XRD测试表明微晶玻璃与Ni-La0.3Ce0.7O1.85(Ni-LDC)阳极化学相容性好,将微晶玻璃和Ni-LDC在850℃烧结100h后,SEM观察界面粘附性好,EPMA测试界面的元素含量结果表明,虽然阳极的Ce会向微晶玻璃扩散10μm的深度,但观察不到微晶玻璃的元素向Ni-LDC扩散现象。用SLABS3密封模拟电池,测试开路电压结果表明SLABS3的密封效果和稳定性良好。

>=Planar anode-supported solid oxide fuel cell (SOFC) is an important aspect in SOFC research field. Preparation of anode substrate membranes, as the mechanical supports of SOFC PEN sandwich structure, is the most pivotal technique. This paper summed up the different preparation methods of Ni-YSZ anode substrates and describes as following two aspects of powder mixture preparations and fabrication methods. Advantages and disadvantages of each method and its application were discussed. Future development trend...

>=Planar anode-supported solid oxide fuel cell (SOFC) is an important aspect in SOFC research field. Preparation of anode substrate membranes, as the mechanical supports of SOFC PEN sandwich structure, is the most pivotal technique. This paper summed up the different preparation methods of Ni-YSZ anode substrates and describes as following two aspects of powder mixture preparations and fabrication methods. Advantages and disadvantages of each method and its application were discussed. Future development trend of anode preparation were analyzed.

平板式阳极支撑型固体氧化物燃料电池 (SOFC)是现在SOFC研究领域的一个重要方向,作为 SOFC三明治结构力学支架的阳极基底膜的制备是实现该设计思路的最为关键的技术。本文从粉末混合物的制备工艺以及阳极成型工艺两个方面综述了制备 Ni-YSZ阳极基底的不同方法,其中粉末混合物的制备工艺包括机械混合法、共沉淀法、包裹沉淀法以及燃烧合成法等,成型工艺包括模压法、流延法、涂层混合法、喷雾热解以及化学/电化学气相沉积法等。本文对这些方法进行了分析和比较,讨论其各自的优缺点和今后的研究发展方向。

>=The manufacture of solid oxide fuel cells that can operate directly with hydrocarbon fuel, without the need for reforming, has the potential of greatly speeding the application of solid oxide fuel cells for transportation and distributed-power applications. In this paper, anode fabrication is based on the preparation of a porous scandia stabilized zirconia (ScSZ) matrix by a dual tape casting method, into which electronically conductive and catalytic components are added through impregnation with aqueous solutions...

>=The manufacture of solid oxide fuel cells that can operate directly with hydrocarbon fuel, without the need for reforming, has the potential of greatly speeding the application of solid oxide fuel cells for transportation and distributed-power applications. In this paper, anode fabrication is based on the preparation of a porous scandia stabilized zirconia (ScSZ) matrix by a dual tape casting method, into which electronically conductive and catalytic components are added through impregnation with aqueous solutions of Cu(NO3)2 and Ce(NO3)3 and following calcination. The performance characteristics of cells produced using this method while operating with H2, CH4 and C2H5OH+H2O are also presented.

直接以碳氢化合物为燃料、无需进行燃料外部重整的固体氧化物燃料电池 (SOFC)是一种很具开发潜力的燃料电池。本文采用双层流延成型法制备阳极支撑型复合膜,然后将其浸渍在硝酸铜溶液和硝酸铈溶液中,低温灼烧后,即得到 Cu—CeO2-ScSZ(氧化钪稳定的氧化锆)复合阳极,并进一步研究了该复合阳极在以氢气、甲烷和乙醇为燃料时固体氧化物燃料电池的性能及其时效特征。

 
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