Advances in Solid Oxide Fuel Cells II: Ceramic Engineering and Science Proceedings, Volume 27, Issue 4

Advances in Solid Oxide Fuel Cells II: Ceramic Engineering and Science Proceedings, Volume 27, Issue 4

Editor(s): Narottam P. Bansal, Andrew Wereszczak, Edgar Lara-Curzio

Published Online: 26 MAR 2008

Print ISBN: 9780470080542

Online ISBN: 9780470291337

DOI: 10.1002/9780470291337

About this Book

Due to its many potential benefits, including high electrical efficiency and low environmental emissions, solid oxide fuel cell (SOFC) technology is the subject of extensive research and development efforts by national laboratories, universities, and private industries. In these proceedings, international scientists and engineers present recent technical progress on materials-related aspects of fuel cells including SOFC component materials, materials processing, and cell/stack design, performance, and stability. Emerging trends in electrochemical materials, electrodics, interface engineering, long-term chemical interactions, and more are included.

This book is compiled of papers presented at the Proceedings of the 30th International Conference on Advanced Ceramics and Composites, January 22-27, 2006, Cocoa Beach, Florida. Organized and sponsored by The American Ceramic Society and The American Ceramic Society's Engineering Ceramics Division in conjunction with the Nuclear and Environmental Technology Division.

Table of contents

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  1. Part I: Overview and Current Status

    1. Chapter 1

      Development of Two Types of Tubular SOFCS at TOTO (pages 3–12)

      Akira Kawakami, Satoshi Matsuoka, Naoki Watanbe, Takeshi Saito, Akira Ueno, Tatsumi Ishihara, Natsuko Sakai and Haarumi Yokokawa

  2. Part II: Cell and Stack Development

    1. Chapter 2

      Development of Solid Oxide Fuel Cell Stack Using Lanthanum Gallate-Based Oxide as an Electrolyte (pages 16–25)

      T. Yamada, N. Chitose, H. Etou, M. Yamada, K. Hosoi, N. Komada, T. Inagaki, F. Nishiwaki, K. Hashino, H. Yoshida, M. Kawano, S. Yamasaki and T. Ishihara

    2. Chapter 3

      Anode Supported LSCM-LSGM-LSM Solid Oxide Fuel Cell (pages 27–34)

      Alidad Mohammadi, Nigel M. Sammes, Jakub Pusz and Alevtina L. Smirnova

  3. Part III: Characterization/Testing

    1. Chapter 11

      Structural Study and Conductivity of BaZr0.90Ga0.10O2.95 (pages 105–117)

      Istaq Ahmed, Elisabet Ahlberg, Sten Eriksson, Christopher Knee, Maths Karlsson, Aleksandar Matic and Lars Börjesson

  4. Part IV: Electrodes

    1. Chapter 14

      Nanostructured Ceramic Suspensions for Electrodes and the Brazilian SOFC Network “REDE PaCOS” (pages 138–152)

      R. C. Cordeiro, G. S. Trindade, R. N. S. H. Magalhães, G. C. Silva, P. R. Villalobos, M. C. R. S. Varela and P. E. V. de Miranda

    2. Chapter 19

      Electrochemical Charactarization and Identification of Reaction Sites in Oxide Anodes (pages 193–198)

      T. Nakamura, K. Yashiro, A. Kaimai, T. Otake, K. Sato, G. J. Park, T. Kawada and J. Mizusaki

  5. Part V: Interconnects and Protective Coatings

    1. Chapter 20

      Corrosion Performance of Ferritic Steel for SOFC Interconnect Applications (pages 200–209)

      M. Ziomek-Moroz, G. R. Holcomb, B. S. Covino, S. J. Bullard, P. D Jablonski and D. E. Alman

    2. Chapter 23

      Properties of (Mn,Co)3O4 Spinel Protection Layers for SOFC Interconnects (pages 231–240)

      Zhenguo Yang, Xiao-Hong Li, Gary D. Maupin, Prabhakar Singh, Steve P. Simner, Jeffry W. Stevenson, Guan-Guang Xia and Xiaodong Zhou

  6. Part VI: Seals

    1. Chapter 26

      Composite Seal Development and Evaluation (pages 264–272)

      Matthew M. Seabaugh, Kathy Sabolsky, Gene B. Arkenberg and Jerry L. Jayjohn

  7. Part VII: Mechanical Properties

    1. Chapter 33

      Fracture Test of Thin Sheet Electrolytes (pages 338–346)

      Jürgen Malzbender, Rolf W. Steinbrech and Lorenz Singheiser

    2. Chapter 34

      Failure Modes of Thin Supported Membranes (pages 347–360)

      P. V. Hendriksen, J. R. Høgsberg, A. M. Kjeldsen, B. F. Sørensen and H. G. Pedersen

  8. Part VIII: Modeling

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