Download Advances in Solid Oxide Fuel Cells II: Ceramic Engineering by Andrew Wereszczak, Edgar Lara-Curzio, Narottam P. Bansal PDF
By Andrew Wereszczak, Edgar Lara-Curzio, Narottam P. Bansal
Because of its many capability advantages, together with excessive electric potency and occasional environmental emissions, good oxide gasoline telephone (SOFC) know-how is the topic of in depth study and improvement efforts via nationwide laboratories, universities, and personal industries. In those lawsuits, foreign scientists and engineers current fresh technical development on materials-related points of gasoline cells together with SOFC part fabrics, fabrics processing, and cell/stack layout, functionality, and balance. rising developments in electrochemical fabrics, electrodics, interface engineering, long term chemical interactions, and extra are included.
This ebook is compiled of papers provided on the lawsuits of the thirtieth overseas convention on complicated Ceramics and Composites, January 22-27, 2006, Cocoa seashore, Florida. equipped and subsidized by way of the yankee Ceramic Society and the yank Ceramic Society's Engineering Ceramics department along with the Nuclear and Environmental expertise Division.Content:
Chapter 1 improvement of 2 kinds 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
Chapter 2 improvement of stable Oxide gasoline cellphone Stack utilizing Lanthanum Gallate?Based Oxide as an Electrolyte (pages 16–25): T. Yamada, N. Chitose, H. Etou, M. Yamada, okay. Hosoi, N. Komada, T. Inagaki, F. Nishiwaki, okay. Hashino, H. Yoshida, M. Kawano, S. Yamasaki and T. Ishihara
Chapter three Anode Supported LSCM?LSGM?LSM stable Oxide gas telephone (pages 27–34): Alidad Mohammadi, Nigel M. Sammes, Jakub Pusz and Alevtina L. Smirnova
Chapter four effect of Anode Thickness at the Electrochemical functionality of unmarried Chamber good Oxide gasoline Cells (pages 37–45): B. E. Buergler, Y. Santschi, M. Felberbaum and L. J. Gauckler
Chapter five research of functionality Degradation of SOFC utilizing Chromiumcontaining Alloy Interconnects (pages 47–54): D. R. Beeaff, A. Dinesen and P. V. Hendriksen
Chapter 6 Degradation Mechanism of steel Supported Atmospheric Plasma Sprayed strong Oxide gas Cells (pages 55–65): D. Hathiramani, R. Va?en, J. Mertens, D. Sebold, V. A. C. Haanappel and D. Stover
Chapter 7 impression of Transition steel Ions at the Conductivity and balance of Stabilised Zirconia (pages 67–78): D. Lybye and M. Mogensen
Chapter eight Thermophysical houses of YSZ and Ni?YSZ as a functionality of Temperature and Porosity (pages 79–85): M. Radovic, E. Lara?Curzio, R. M. Trejo, H. Wang and W. D. Porter
Chapter nine actual houses within the Bi2O3?Fe2O3 method Containing Y2O3 and CaO Dopants (pages 87–93): Hsin?Chai Huang, Yu?Chen Chang and Tzer?Shin Sheu
Chapter 10 electric houses of Ce0.8Gd0.2O1.9 Ceramics ready through an Aqueous approach (pages 95–103): Toshiaki Yamaguchi, Yasufumi Suzuki, Wataru Sakamoto and Shin?Ichi Hirano
Chapter eleven Structural learn and Conductivity of BaZr0.90Ga0.10O2.95 (pages 105–117): 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 119–123): Mohamed M. Elbaccouch and Ali T?Raissi
Chapter thirteen A Mechanical?Electrochemical idea of Defects in Ionic Solids (pages 125–136): Narasimhan Swaminathan and Jianmin Qu
Chapter 14 Nanostructured Ceramic Suspensions for Electrodes and the Brazilian SOFC community “REDE PaCOS” (pages 138–152): 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 impact of Sheet Resistance (pages 153–160): David S. Mebane, Erik Koep and Meilin Liu
Chapter sixteen Cathode Thermal Delamination learn for a Planar strong Oxide gasoline phone with useful Graded houses: Experimental research and Numerical effects (pages 161–173): Gang Ju, Kenneth Reifsnider and Jeong?Ho Kim
Chapter 17 Electrochemical features of Ni/Gd?Doped Ceria and Ni/Sm?Doped Ceria Anodes for SOFC utilizing Dry Methane gas (pages 175–182): Caroline Levy, Shinichi Hasegawa, Shiko Nakamura, Manabu Ihara and Keiji Yamahara
Chapter 18 keep an eye on of Microstructure of NiO?SDC Composite debris for improvement of excessive functionality SOFC Anodes (pages 183–191): Koichi Kawahara, Seiichi Suda, Seiji Takahashi, Mitsunobu Kawano, Hiroyuki Yoshida and Toru Inagaki
Chapter 19 Electrochemical Charactarization and id of response websites in Oxide Anodes (pages 193–198): T. Nakamura, okay. Yashiro, A. Kaimai, T. Otake, okay. Sato, G. J. Park, T. Kawada and J. Mizusaki
Chapter 20 Corrosion functionality of Ferritic metal for SOFC Interconnect functions (pages 200–209): M. Ziomek?Moroz, G. R. Holcomb, B. S. Covino, S. J. Bullard, P. D Jablonski and D. E. Alman
Chapter 21 hot temperature Corrosion habit of Oxidation Resistant Alloys below SOFC Interconnect twin Exposures (pages 211–221): Zhenguo Yang, Greg W. Coffey, Joseph P. Rice, Prabhakar Singh, Jeffry W. Stevenson and Guan?Guang Xia
Chapter 22 Electro?Deposited protecting Coatings for Planar sturdy Oxide gas mobile Interconnects (pages 223–229): Christopher Johnson, Chad Schaeffer, Heidi Barron and Randall Gemmen
Chapter 23 homes of (Mn,Co)3O4 Spinel defense 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
Chapter 24 gas mobile Interconnecting Coatings Produced via diverse Thermal Spray innovations (pages 241–251): E. Garcia and T. W. Coyle
Chapter 25 floor amendment of Alloys for more suitable Oxidation Resistance in SOFC functions (pages 253–262): David E. Alman, Paul D. Jablonski and Steven C. Kung
Chapter 26 Composite Seal improvement and assessment (pages 264–272): Matthew M. Seabaugh, Kathy Sabolsky, Gene B. Arkenberg and Jerry L. Jayjohn
Chapter 27 research of SOFC?Gaskets Containing Compressive Mica Layers lower than twin surroundings stipulations (pages 273–285): F. Wiener, M. Bram, H.?P. Buchkremer and D. Sebold
Chapter 28 functionality of Self?Healing Seals for good Oxide gasoline Cells (SOFC) (pages 287–295): Raj N. Singh and Shailendra S. Parihar
Chapter 29 houses of Glass?Ceramic for strong Oxide gas Cells (pages 297–304): S. T. Reis, R. ok. forehead, T. Zhang and P. Jasinski
Chapter 30 Mechanical habit of reliable Oxide gas telephone (SOFC) Seal Glass?Boron Nitride Nanotubes Composite (pages 305–314): Sung R. Choi, Narottam P. Bansal, Janet B. Hurst and Anita Garg
Chapter 31 Mechanical Behaviour of Glassy Composite Seals for IT?SOFC software. (pages 315–323): ok. A. Nielsen, M. Solvang, S. B. L. Nielsen and D. Beeaff
Chapter 32 Mechanical estate Characterizations and function Modeling of SOFC Seals (pages 325–335): Brian J. Koeppel, John S. Vetrano, Ba Nghiep Nguyen, Xin solar and Moe A. Khaleel
Chapter 33 Fracture try of skinny Sheet Electrolytes (pages 338–346): Jurgen Malzbender, Rolf W. Steinbrech and Lorenz Singheiser
Chapter 34 Failure Modes of skinny Supported Membranes (pages 347–360): P. V. Hendriksen, J. R. Hogsberg, A. M. Kjeldsen, B. F. Sorensen and H. G. Pedersen
Chapter 35 comparability of Mechanical homes of NiO/YSZ via diverse tools (pages 361–372): Dustin R. Beeaff, S. Ramousse and Peter V. Hendriksen
Chapter 36 Fracture durability and sluggish Crack progress habit of Ni?YSZ and YSZ as a functionality of Porosity and Temperature (pages 373–381): M. Radovic, E. Lara?Curzio and G. Nelson
Chapter 37 impression of Thermal biking and Thermal getting older at the Mechanical houses of, and Residual Stresses in, Ni?YSZ/YSZ Bi?Layers (pages 383–391): E. Lara?Curzio, M. Radovic, R. M. Trejo, C. Cofer, T. R. Watkins and okay. L. More
Chapter 38 Three?Dimensional Numerical Simulation instruments for Fracture research in Planar stable Oxide gas Cells (SOFCs) (pages 393–405): Janine Johnson and Jianmin Qu
Chapter 39 Electrochemistry and On?Cell Reformation Modeling for good Oxide gas cellphone Stacks (pages 408–418): ok. P. Recknagle, D. T. Jarboe, okay. I. Johnson, V. Korolev, M. A. Khaleel and P. Singh
Chapter forty Modeling of Heat/Mass shipping and Electrochemistry of a fantastic Oxide gasoline mobilephone (pages 419–433): Yan Ji, J. N. Chung and Kun Yuan
Read or Download Advances in Solid Oxide Fuel Cells II: Ceramic Engineering and Science Proceedings, Volume 27, Issue 4 PDF
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Extra info for Advances in Solid Oxide Fuel Cells II: Ceramic Engineering and Science Proceedings, Volume 27, Issue 4
The microstructural characterization data demonstrate that addition of 5wt% of poreformer with or without binder gives up to 40% of porosity in anode layer, which is favorable for inininiizinp mass transport limitations. Utilization of organic binder in addition to the poreformer increases integrity while retaining good porosity and therefore fuel transportation through anode porous structure. The obtained values of OCVs for the SOFC tested in saturated hydrogen for 500 hours indicate degradation effects that can be due to microstructural changes in electrode layers.
The fourth-generation stack unit design with internal gas manifolds. Deionized water was pumped into the module again at room temperature for steam reforming of the town gas, which was carried out within the module. The observed stack average temperature was 758 "C. The average conversion efficiency carefully calculated from the experimental data for the 21 hrs stable operation b a s 60 %(LHV). The typical perfoiniance of the fourth generation module is shown in Table 3. 9v 60%LH\' 8 I 0% 758 "C 1 I Development of Solid Oxide Fuel Cell Stack Using Lanthanum Gallate-Based Oxide CONCLUSIONS We have characterized the power-generation of the stack repeat unit using LSGMC electrolyte in the temperature range between 650 and 800 "C.
Dogan, "Single Chamber Electrolyte Supported SOFC Module", Electrochem. , 7, A39 1 (2004). *M. A. Priestnall, V. P. Kotzeva, D. J. Fish and E. M. Nilsson, "Compact mixed-reactant fuel cells", J. Power Sources, 106,21 (2002). 9Z. Shao, S. M. Haile, H. Ahn, P. D. Ronney, Z. Zhan and S. A. Barnett, "A thermally selfsustained micro solid-oxide fuel-cell stack with high power density", Nature, 435, 795 (2005). 'OB. E. Buergler, M. E. Siegrist and L. J. Gauckler, "Single chamber solid oxide fuel cells with integrated current-collectors", Solid State Ionics, 176, 1717 (2005).