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等离子喷涂在制备中温平板式固体氧化物燃料电池中的应用 被引量:8

DEVELOPMENT OF INTERMEDIATE TEMPERATURE PLANAR SOLID OXIDE FUEL CELLS BY PLASMA SPRAY TECHNIQUE
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摘要 固体氧化物燃料电池 (solidoxidefuelcell,SOFC)是一种新型的高效率、环境友好的能量转换装置。为了在竞争激烈的电力市场中实现商业化 ,急需降低SOFC的工作温度 (目前成熟电池堆的工作温度 >80 0℃ ) ,兼顾提高电池堆长期工作稳定性的同时 ,能大幅度削减生产成本。等离子喷涂工艺由于能够高效率的获得理想层状结构和优良结合强度的涂层 ,在中温平板式SOFC的阳极、电解质和阴极制备中均有应用。文中简要说明了等离子喷涂工艺原理及特点 ,综述了其在制备中温 ( 65 0~ 80 0℃ )平板式SOFC中的应用 。 As a new type of environmental amity energy converter, the commercialization of solid oxide fuel cells (SOFC) strongly depends on their improvement in performances and the reduction in production costs. The operating temperature of planar SOFC which is defined within the range of 650-800°C is an important objective. In order to reduce production costs and improve the long-term stability of SOFC, the integrated fabrication process of SOFC by plasma spraying is recommended, which is characterized by the ideal sandwich structure and excellent strength obtained. The theory of coating deposited process and characteristics of the plasma spray are discussed. The novel development of the plasma spray applied to the SOFC is reviewed. The further work is also prospected.
作者 郑锐 聂怀文 陈文霞 张向峰 温廷琏
机构地区 中国科学院上海硅酸盐研究所功能中心
出处 《硅酸盐学报》 EI CAS CSCD 北大核心 2003年第6期598-603,共6页 Journal of The Chinese Ceramic Society
关键词 等离子喷涂 固体氧化物燃料电池 平板式 Costs Plasma spraying Production Sandwich structures
分类号 TM911 [电气工程—电力电子与电力传动]
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参考文献31

  • 1HENNE R, MULLER M, SCHILLER G, et al. Near-net-shape forming of metallic bipolar plates for planar solid oxide fuel cells by induction plasma spraying [J]. Thermal Spray Technol, 1999, 8(1): 110-116.
  • 2SCHILLER G, HENNE R, LANG M, et al. Development of metallic substrate supported thin-film SOFC by applying plasma spray techniques [A]. In: SLNGHAL S C ed .Solid Oxide Fuel Cells (SOFC Ⅵ) [C]. New Jersey, USA: The ElectroChemical Society, 1999. 893-903.
  • 3LANG M, HENNE R, SCHILLER G, et al. Development and characterization of vacuum plasma sprayed thin film solid oxide fuel cells [J]. J Thermal Spray Technol, 2001,10(4): 618-625.
  • 4HUEBNER W, REED D M, ANDERSON H U, et al. Solid oxide fuel cell performance studies: anode development [J]. Electrochem Soc Proc, 1999,19 :503-512.
  • 5PUDMICH G, JUNGEN W, TIETZ F, et al. Characterization of new ceramic anode materials for direct methane oxidation in SOFC [J]. Electrochem Soc Proc, 1999,19 :577-582.
  • 6MIZUTANI Y, KAWAI M, NOMURA K, et al. Characteristics of substrate type SOFC using Sc-doped zirconia electrolytes [J]. Electrochem Soc Proc, 1999,19:185-192.
  • 7MURRAY P E, BARNETT A S. (La,Sr)MnO3-(Ce,Gd)O2-x composite cathode for solid oxide fuel cells [J]. Solid State Ionics, 2001, 143(3): 265-273.
  • 8INOUE T, SETOGUCHI T, EGUCHI K, et al. Study of a solid oxide fuel cell with a ceria-based solid electrolyte [J]. Solid State Ionics, 1989,35(2): 285-291.
  • 9DONG J K, DAE G K. Characterization of LSM-YSZ composite electrode by ac impedance spectroscopy [J]. Solid State Ionics, 2001, 143(3): 379-389.
  • 10GAVRILOVA Y L, CHEREPANOV A V. Oxygen nonstoichiometry and defect structure of La1-xMexCoO3-y(Me=Ca,Sr,Ba) [J]. Electrochem Soc Proc, 1999,19 :404-410.

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共引文献26

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引证文献8

二级引证文献30

硅酸盐学报
2003年 第6期

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