Tubular Metal Supported SOFC Development for Domestic Power Generation

被引:16
|
作者
Villarreal, I. [1 ]
Rivas, M. [1 ]
Rodriguez-Martinez, L. M. [1 ]
Otaegi, L. [1 ]
Zabala, A. [1 ]
Gomez, N. [1 ]
Alvarez, M. A. [1 ]
Antepara, I. [1 ]
Arizmendiarrieta, N. [1 ]
Manzanedo, J. [1 ]
Olave, M. [1 ]
Urriolabeitia, A. [1 ]
Burgos, N. [2 ]
Castro, F. [2 ]
Laresgoiti, A. [1 ]
机构
[1] Ikerlan, Parque Tecnol Alava,Juan de la Cierva 1, Minano 01510, Spain
[2] CEIT, San Sebastian, Spain
来源
SOLID OXIDE FUEL CELLS 11 (SOFC-XI) | 2009年 / 25卷 / 02期
关键词
D O I
10.1149/1.3205583
中图分类号
O646 [电化学、电解、磁化学];
学科分类号
081704 ;
摘要
Tubular metal supported SOFC technology has successfully been developed over the past years with the aim at domestic CHP systems below 3 kWe. The basic cell structure consists of a metal porous support, a protective barrier layer, an anode and an electrolyte cofired at 1350 degrees C. Cathode and contacting layers are subsequently sintered at lower temperatures. Latest achievements include average cell performances of 400 mW/cm(2) at 0.7 V and 800 degrees C, over 350 thermal cycles and more than 1500 hours of steady operation. Several stack concepts are currently being tested and BoP components such as fuel processing, power electronics and control system developed in parallel to achieve a successful micro-CHP proof of concept by the end of 2010.
引用
收藏
页码:689 / 694
页数:6
相关论文
共 50 条
  • [21] Electrical models of SOFC for Power Generation
    Liu, Y. H.
    Brandon, N. P.
    Liu, Minhua
    2012 ASIA-PACIFIC POWER AND ENERGY ENGINEERING CONFERENCE (APPEEC), 2012,
  • [22] Porous electrolyte-supported tubular micro-SOFC design
    Hanifi, Amir Reza
    Torabi, Alireza
    Etsell, Thomas H.
    Yamarte, Luis
    Sarkar, Partha
    SOLID STATE IONICS, 2011, 192 (01) : 368 - 371
  • [23] R&D and Commercialization of Metal-Supported SOFC Personal Power Products at Point Source Power
    Tucker, M. C.
    Carreon, B.
    Charyasatit, J.
    Langston, K.
    Taylor, C.
    Manjarrez, J.
    Burton, N.
    LaBarbera, M.
    Jacobson, C. P.
    SOLID OXIDE FUEL CELLS 13 (SOFC-XIII), 2013, 57 (01): : 503 - 509
  • [24] Development of tubular type SOFC module by wet process
    Kuroishi, M
    Furuya, S
    Hiwatashi, K
    Omoshiki, K
    Ueno, A
    Aizawa, M
    Tsujimoto, K
    Uchida, Y
    Yoshiwaka, H
    Shukuri, K
    SOLID OXIDE FUEL CELLS VII (SOFC VII), 2001, 2001 (16): : 88 - 93
  • [25] Operation of Metal-Supported SOFC with Charcoal Fuel
    Tucker, M. C.
    Taylor, C.
    LaBarbera, M.
    Jacobson, C. P.
    SOLID OXIDE FUEL CELLS 13 (SOFC-XIII), 2013, 57 (01): : 2929 - 2937
  • [26] Development of 2nd generation, supported electrolyte, flat plate SOFC components at ECN
    Ouweltjes, JP
    van Berkel, FPF
    Nammensma, P
    Christie, GM
    SOLID OXIDE FUEL CELLS (SOFC VI), 1999, 99 (19): : 803 - 811
  • [27] Parametric study of the tubular SOFC power cycle with a thermodynamic model
    Ghassemi, M.
    Mostofi, S.
    Barsi, Mollayi Y.
    Pirmohammadi, M.
    PROCEEDINGS OF THE ASME INTERNATIONAL MECHANICAL ENGINEERING CONGRESS AND EXPOSITION 2007, VOL 8, PTS A AND B: HEAT TRANSFER, FLUID FLOWS, AND THERMAL SYSTEMS, 2008, : 473 - 481
  • [28] The influence of current collection on the performance of tubular anode-supported SOFC cells
    Zhu, Huayang
    Kee, Robert J.
    JOURNAL OF POWER SOURCES, 2007, 169 (02) : 315 - 326
  • [29] Fabrication and characterization of t-ZrO2 supported small tubular SOFC
    Rahman, A. H. M. Esfakur
    Islam, Shamiul
    Kim, Jong-Hee
    Lee, Byong Taek
    JOURNAL OF THE CERAMIC SOCIETY OF JAPAN, 2009, 117 (1370) : 1131 - 1133
  • [30] Effect of GDC Electrolyte Thickness on the Performance of Anode Supported Micro Tubular SOFC
    Otake, Takanori
    Yokoyama, Misuzu
    Nagai, Kohki
    Ukai, Kenji
    Mizutani, Yasunobu
    SOLID OXIDE FUEL CELLS 10 (SOFC-X), PTS 1 AND 2, 2007, 7 (01): : 551 - 554
12345