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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.Content:
Chapter 1 Development of Two Types of Tubular SOFCS at TOTO (pages 3β12): Akira Kawakami, Satoshi Matsuoka, Naoki Watanbe, Takeshi Saito, Akira Ueno, Tatsumi Ishihara, Natsuko Sakai and Haarumi Yokokawa
Chapter 2 Development of Solid Oxide Fuel Cell Stack Using Lanthanum Gallate?Based Oxide as an Electrolyte (pages 16β25): 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
Chapter 3 Anode Supported LSCM?LSGM?LSM Solid Oxide Fuel Cell (pages 27β34): Alidad Mohammadi, Nigel M. Sammes, Jakub Pusz and Alevtina L. Smirnova
Chapter 4 Influence of Anode Thickness on the Electrochemical Performance of Single Chamber Solid Oxide Fuel Cells (pages 37β45): B. E. Buergler, Y. Santschi, M. Felberbaum and L. J. Gauckler
Chapter 5 Investigation of Performance Degradation of SOFC using Chromiumcontaining Alloy Interconnects (pages 47β54): D. R. Beeaff, A. Dinesen and P. V. Hendriksen
Chapter 6 Degradation Mechanism of Metal Supported Atmospheric Plasma Sprayed Solid Oxide Fuel Cells (pages 55β65): D. Hathiramani, R. Va?en, J. Mertens, D. Sebold, V. A. C. Haanappel and D. Stover
Chapter 7 Effect of Transition Metal Ions on the Conductivity and Stability of Stabilised Zirconia (pages 67β78): D. Lybye and M. Mogensen
Chapter 8 Thermophysical Properties of YSZ and Ni?YSZ as a Function of Temperature and Porosity (pages 79β85): M. Radovic, E. Lara?Curzio, R. M. Trejo, H. Wang and W. D. Porter
Chapter 9 Physical Properties in the Bi2O3?Fe2O3 System Containing Y2O3 and CaO Dopants (pages 87β93): Hsin?Chai Huang, Yu?Chen Chang and Tzer?Shin Sheu
Chapter 10 Electrical Properties of Ce0.8Gd0.2O1.9 Ceramics Prepared by an Aqueous Process (pages 95β103): Toshiaki Yamaguchi, Yasufumi Suzuki, Wataru Sakamoto and Shin?Ichi Hirano
Chapter 11 Structural Study and Conductivity of BaZr0.90Ga0.10O2.95 (pages 105β117): Istaq Ahmed, Elisabet Ahlberg, Sten Eriksson, Christopher Knee, Maths Karlsson, Aleksandar Matic and Lars Borjesson
Chapter 12 Hydrogen Flux in Terbium Doped Strontium Cerate Membrane (pages 119β123): Mohamed M. Elbaccouch and Ali T?Raissi
Chapter 13 A Mechanical?Electrochemical Theory of Defects in Ionic Solids (pages 125β136): Narasimhan Swaminathan and Jianmin Qu
Chapter 14 Nanostructured Ceramic Suspensions for Electrodes and the Brazilian SOFC Network βREDE PaCOSβ (pages 138β152): R. C. Cordeiro, G. S. Trindade, R. N. S. H. Magalhaes, G. C. Silva, P. R. Villalobos, M. C. R. S. Varela and P. E. V. de Miranda
Chapter 15 Modeling of MIEC Cathodes: The Effect of Sheet Resistance (pages 153β160): David S. Mebane, Erik Koep and Meilin Liu
Chapter 16 Cathode Thermal Delamination Study for a Planar Solid Oxide Fuel Cell with Functional Graded Properties: Experimental Investigation and Numerical Results (pages 161β173): Gang Ju, Kenneth Reifsnider and Jeong?Ho Kim
Chapter 17 Electrochemical Characteristics of Ni/Gd?Doped Ceria and Ni/Sm?Doped Ceria Anodes for SOFC Using Dry Methane Fuel (pages 175β182): Caroline Levy, Shinichi Hasegawa, Shiko Nakamura, Manabu Ihara and Keiji Yamahara
Chapter 18 Control of Microstructure of NiO?SDC Composite Particles for Development of High Performance SOFC Anodes (pages 183β191): Koichi Kawahara, Seiichi Suda, Seiji Takahashi, Mitsunobu Kawano, Hiroyuki Yoshida and Toru Inagaki
Chapter 19 Electrochemical Charactarization and Identification of Reaction Sites in Oxide Anodes (pages 193β198): T. Nakamura, K. Yashiro, A. Kaimai, T. Otake, K. Sato, G. J. Park, T. Kawada and J. Mizusaki
Chapter 20 Corrosion Performance of Ferritic Steel for SOFC Interconnect Applications (pages 200β209): M. Ziomek?Moroz, G. R. Holcomb, B. S. Covino, S. J. Bullard, P. D Jablonski and D. E. Alman
Chapter 21 High Temperature Corrosion Behavior of Oxidation Resistant Alloys Under SOFC Interconnect Dual Exposures (pages 211β221): Zhenguo Yang, Greg W. Coffey, Joseph P. Rice, Prabhakar Singh, Jeffry W. Stevenson and Guan?Guang Xia
Chapter 22 Electro?Deposited Protective Coatings for Planar Solid Oxide Fuel Cell Interconnects (pages 223β229): Christopher Johnson, Chad Schaeffer, Heidi Barron and Randall Gemmen
Chapter 23 Properties of (Mn,Co)3O4 Spinel Protection Layers for SOFC Interconnects (pages 231β240): Zhenguo Yang, Xiao?Hong Li, Gary D. Maupin, Prabhakar Singh, Steve P. Simner, Jeffry W. Stevenson, Guan?Guang Xia and Xiaodong Zhou
Chapter 24 Fuel Cell Interconnecting Coatings Produced by Different Thermal Spray Techniques (pages 241β251): E. Garcia and T. W. Coyle
Chapter 25 Surface Modification of Alloys for Improved Oxidation Resistance in SOFC Applications (pages 253β262): David E. Alman, Paul D. Jablonski and Steven C. Kung
Chapter 26 Composite Seal Development and Evaluation (pages 264β272): Matthew M. Seabaugh, Kathy Sabolsky, Gene B. Arkenberg and Jerry L. Jayjohn
Chapter 27 Investigation of SOFC?Gaskets Containing Compressive Mica Layers Under Dual Atmosphere Conditions (pages 273β285): F. Wiener, M. Bram, H.?P. Buchkremer and D. Sebold
Chapter 28 Performance of Self?Healing Seals for Solid Oxide Fuel Cells (SOFC) (pages 287β295): Raj N. Singh and Shailendra S. Parihar
Chapter 29 Properties of Glass?Ceramic for Solid Oxide Fuel Cells (pages 297β304): S. T. Reis, R. K. Brow, T. Zhang and P. Jasinski
Chapter 30 Mechanical Behavior of Solid Oxide Fuel Cell (SOFC) Seal Glass?Boron Nitride Nanotubes Composite (pages 305β314): Sung R. Choi, Narottam P. Bansal, Janet B. Hurst and Anita Garg
Chapter 31 Mechanical Behaviour of Glassy Composite Seals for IT?SOFC Application. (pages 315β323): K. A. Nielsen, M. Solvang, S. B. L. Nielsen and D. Beeaff
Chapter 32 Mechanical Property Characterizations and Performance Modeling of SOFC Seals (pages 325β335): Brian J. Koeppel, John S. Vetrano, Ba Nghiep Nguyen, Xin Sun and Moe A. Khaleel
Chapter 33 Fracture Test of Thin Sheet Electrolytes (pages 338β346): Jurgen Malzbender, Rolf W. Steinbrech and Lorenz Singheiser
Chapter 34 Failure Modes of Thin Supported Membranes (pages 347β360): P. V. Hendriksen, J. R. Hogsberg, A. M. Kjeldsen, B. F. Sorensen and H. G. Pedersen
Chapter 35 Comparison of Mechanical Properties of NiO/YSZ By Different Methods (pages 361β372): Dustin R. Beeaff, S. Ramousse and Peter V. Hendriksen
Chapter 36 Fracture Toughness and Slow Crack Growth Behavior of Ni?YSZ and YSZ as a Function of Porosity and Temperature (pages 373β381): M. Radovic, E. Lara?Curzio and G. Nelson
Chapter 37 Effect of Thermal Cycling and Thermal Aging on the Mechanical Properties of, and Residual Stresses in, Ni?YSZ/YSZ Bi?Layers (pages 383β391): E. Lara?Curzio, M. Radovic, R. M. Trejo, C. Cofer, T. R. Watkins and K. L. More
Chapter 38 Three?Dimensional Numerical Simulation Tools for Fracture Analysis in Planar Solid Oxide Fuel Cells (SOFCs) (pages 393β405): Janine Johnson and Jianmin Qu
Chapter 39 Electrochemistry and On?Cell Reformation Modeling for Solid Oxide Fuel Cell Stacks (pages 408β418): K. P. Recknagle, D. T. Jarboe, K. I. Johnson, V. Korolev, M. A. Khaleel and P. Singh
Chapter 40 Modeling of Heat/Mass Transport and Electrochemistry of a Solid Oxide Fuel Cell (pages 419β433): Yan Ji, J. N. Chung and Kun Yuan
π SIMILAR VOLUMES
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