216th ECS Meeting - Vienna, Austria

October 4 - October 9, 2009

PROGRAM INFORMATION
 

B10 - Solid Oxide Fuel Cells, Eleventh International Symposium (SOFC-XI)

High Temperature Materials/Battery/Energy Technology/Fuel Cell Subcommittee
 

Monday, October 5, 2009

Hall B, Level 02 - Red

SOFC Plenary Session

Co-Chairs: Subhash Singhal and Harumi Yokokawa
TimeAbs#Title and Authors
09:00 Introductory Remarks - Subhash C. Singhal (20 Minutes)
09:20   1201   European SOFC R&D - Status and Trends R. Steinberger-Wilckens (FZ Juelich)
09:40   1202   Status of National Project for SOFC Development in Japan K. Hosoi (20F Muza Kawasaki Building) and M. Nakabaru (New Energy and Industrial Technology Development Organization)
10:00   1203   The Status of SOFC Programs in USA W. A. Surdoval (NETL)
10:20   1204   The Integrated Project SOFC600 Development of Low-temperature SOFC B. G. Rietveld (Energy research Centre of the Netherlands (ECN)), F. P. Van Berkel, Y. Zhang-Steenwinkel (ECN), E. Bouyer (CEA), J. Irvine (University of St Andrews), M. Menon (Risoe-DTU), L. Niewolak, S. Gross (FZJ), A. Heel, P. Holtappels (EMPA), and S. Modena (HTceramix-SofcPower)
10:40   1205   A Review of Progress in the UK Supergen Fuel Cell Programme C. Adjiman, A. Atkinson (Imperial College), R. Baker (St Andrews University), N. P. Brandon (Imperial College), D. Brett (UCL), R. Clague (Imperial College London), E. Carvalho (University St Andrews), K. Choy (The University of Nottingham), J. Irvine (University of St Andrews), A. Marquis (Imperial College London), D. Miller (University St Andrews), G. Offer (Imperial College London), K. Pointon (DSTL), S. Pyke (Rolls-Royce Fuel Cell Systems), A. Selcuk (Ceres Power), K. Scott (Newcastle University), and P. Shearing (Imperial College London)
11:00   1206   Real-SOFC - A Joint European Effort to Improve SOFC Durability R. Steinberger-Wilckens (FZ Juelich), B. G. Rietveld (Energy research Centre of the Netherlands (ECN)), L. De Haart (FZ Juelich), F. Tietz (Forschungszentrum Jülich GmbH), J. Mougin (CEA-Grenoble), O. Bucheli (HTcermamix), R. Rosenberg (VTT), M. Zahid (European Institute for Energy Research), and P. Holtappels (EMPA)
11:20   1207   The Status of SOFC Development at Versa Power Systems E. Tang, M. Pastula, and B. P. Borglum (Versa Power Systems)
11:40   1208   Solid Oxide Fuel Cell Stack For Transportation and Stationary Applications S. Mukerjee, K. Haltiner, D. Klotzbach, J. Vordonis, A. Iyer, R. Kerr (Delphi Corporation), V. Sprenkle, J. Kim, K. Meinhardt, N. Canfield, J. Darsell, B. Kirby, T. Oh, G. Maupin, B. Voldrich, and J. Bonnett (Pacific Northwest National Laboratory operated by Battelle Memorial Institute)
 

SOFC Stacks and Systems I

Co-Chairs: Robert Steinberger-Wilckens and Wayne Surdoval
TimeAbs#Title and Authors
14:00   1209   Prototype SOFC CHP System (SOFIT) Development and Testing T. Haga, N. Komiyama, H. Nakatomi, K. Konishi, T. Sutou, and T. Kikuchi (Electric Power Development Co., Ltd.(JPOWER))
14:20   1210   Solid Oxide Fuel Cell Development at United Technologies Research Center E. Sun, J. Yamanis, L. Chen, D. Frame, J. Holowczak, N. Magdefrau, S. Tulyani, J. Hawkes, C. Haugstetter, T. Radcliff, and D. Tew (United Technologies Research Center)
14:40   1211   Solid Oxide Fuel Cell Development at NIMTE W. Wang, W. Guan, H. Li, Z. Wang, J. Wang (Ningbo Institute of Material Technology and Engineering), Y. Wu (NIMTE), X. Li, and G. Zuo (Ningbo Institute of Material Technology and Engineering)
15:00   1212   Development of SOFC Stack at NGK Spark Plug Co., Ltd. D. Nishijima (NGK Spark Plug Co., LTD.), H. Ishikawa, M. Shibata, H. Uematsu, H. Sumi, Y. Okuyama, Y. Todo, D. Komatsu, S. Ishida, and K. Furusaki (NGK Spark Plug Co., LTD)
15:20   1213   SOFC Stacks for Mobile Applications M. Lang, T. Weckesser, C. Auer, P. Jentsch (German Aerospace Center (DLR)), and K. A. Friedrich (German Aerospace Center)
15:40 Intermission (20 Minutes)
16:00   1214   Status Report of SOFC Development and Pilot Manufacturing at SOFCpower Srl M. Bertoldi (SOFCpower S.r.l.), O. Bucheli (HTcermamix), A. Ravagni (SOFCpower Srl), N. Autissier (HTceramix SA), M. Signorini (SOFCpower Srl), and S. Modena (HTceramix-SofcPower)
16:20   1215   Development of SOFC Stacks at Ceramic Fuel Cells Limited J. Love, S. Amarasinghe, D. Selvey, X. Zheng, and L. Christiansen (Ceramic Fuel Cells Ltd)
16:40   1216   3 kW SOFC Power Generation Module Developed by NTT/THG/SPP H. Arai, K. Hayashi, Y. Yoshida, M. Yokoo (Nippon Telegraph and Telephone Corporation), Y. Mizutani (Toho Gas Co., Ltd.), K. Ukai, K. Katsurayama (Toho Gas Corporation), H. Orishima, M. Hirakawa, H. Uwani, and S. Kashima (Sumitomo Precision Products Corporation)
17:00   1217   Status of Development and Manufacture of Solid Oxide Fuel Cell at Topsoe Fuel Cell A/S and Risø/DTU N. Christiansen, H. Holm-Larsen, M. Juel Jørgensen (Topsoe Fuel Cell A/S), P. Vang Hendriksen (Risoe/DTU), A. Hagen (Risoe DTU), S. Ramousse (Risø National Laboratory for Sustainable Energy, Technical University of Denmark), and M. Wandel (Risoe/DTU)
17:20   1218   Development and Field Test Results of Residential SOFC CHP System M. Suzuki, S. Iwata, K. Higaki, S. Inoue (Osaka Gas Co.,Ltd.), T. Shigehisa, I. Miyachi, H. Nakabayashi, and K. Shimazu (Kyocera Corporation)
17:40   1219   Status of Hexis' SOFC Stack Development and the Galileo 1000 N Micro-CHP System A. Mai, B. Iwanschitz, U. Weissen (Hexis Ltd.), R. Denzler (Hexid Ltd.), D. Haberstock (Hexis Ltd.), V. Nerlich (Hexid Ltd.), J. Sfeir, and A. Schuler (Hexis Ltd.)
 

Foyers B & C, Level 02 - Red

SOFC Poster I - Materials (non-electrode) and Modeling

Co-Chairs: Nguyen Minh and Xiao-Dong Zhou
TimeAbs#Title and Authors
o   1220   Heterogeneous Zirconia-based Solid Electrolytes Obtained by Sintering TZP+YSZ Powder Mixtures C. Fernandes, G. Cunto, F. Figueiredo, and J. R. Frade (University of Aveiro)
o   1221   YSZ Free-standing Membranes for Silicon-based MicroSOFCs A. Tarancon (IMB-CSIC), I. Garbayo (IMB-CNM, CSIC), J. Santiso, A. Cavallaro (CIN2, CSIC/ICN), G. Garcia (Autonomous University of Barcelona), I. Gràcia, C. Cané (IMB-CNM, CSIC), and N. Sabaté (IMB-CNM,CSIC)
o   1223   Sintering Mechanisms of Cobalt Doped Ceria and Zirconia Electrolytes in Solid Oxide Fuel Cells with Intermediate-temperature Operation M. Mori, Z. Wang (Central Research Institute of Electric Power Industry), and T. Itoh (AGC Seimi Chemical Co., Ltd.)
o   1224   Redox Properties of Ordered Macroporous Ce-Zr Mixed Oxides D. Tonti (CSIC), M. Torralvo, E. Enciso (Universidad Complutense Madrid), L. Martinez, E. Roman, and J. Sanz (CSIC)
o   1225   Bulk and Grain Boundary Conductivities as Function of Temperature and Oxygen Partial Pressure of Scandia-stabilized Zirconia Co-doped with Yttria and Ceria W. Preis, A. Egger, J. Waldhäusl, W. Sitte (University of Leoben), E. De Carvalho (University of St. Andrews), and J. Irvine (University of St Andrews)
o   1226   Low Sintering Temperature and Electrical Properties of Samarium-doped Ceria E. Camilo de Souza and E. N. Muccillo (Energy and Nuclear Research Institute)
o   1228   Sol-Gel Process to Prepare a Dense YSZ Electrolyte on Anode Support E. Courtin (CEA Le Ripault), P. Boy (CEA Le Ripault, France), N. Poirot (LEMA Blois, France), and C. Laberty-Robert (UPMC Paris VI)
o   1229   Zirconia EB-PVD Electrolyte Films: Structure, Mechanical Properties and Conductivity O. D. Vasylyev (Institute for Problems of Materials Science), M. Brychevskyi, I. Pryshchepa (Frantcevych Institute for Problems of Materials Science, Kyiv, Ukraine), V. Vereschak (Chemical Technology University, Dnipropetrovsk, Ukraine), A. Smirnova (University of Connecticut, Storrs, CT, 06259, USA), L. Dubykivskyi (Frantcevych Institute for Problems of Materials Science, Kyiv, Ukraine), J. Irvine (University of St Andrews), C. D. Savaniu (School of Chemistry, University of St Andrews, Fife, Scotland, UK), and J. Malzbender (Institute for Materials and Processes in Energy Systems IWV 2, Juelich, Germany)
o   1230   Synthesis of ScSZ-based Electrolyte Powder for IT-SOFC Unit Cell using Co-precipitation Process J. Kang, Y. Kim, H. Kim (Korea Institute of Industrial Technology), and J. Jang (Samsung Electrio-Mechanics Co., LTD)
o   1231   Effect of La2O3 Doping on Conductivity in the ZrO2 - Sc2O3 - CeO2 System V. I. Barbashov, V. M. Timchenko, and E. V. Nesova (Donetsk Phys. Tech. Institute,National Academy of Science of Ukraine)
o   1233   Structural Stability of GDC Electrolyte for Low-Temperature SOFCs Depending on Fuels H. Ko, J. Lee, and S. Hyun (Yonsei University)
o   1234   IR-Assisted Sol-Gel Synthesis of Ce0.8Gd0.2O2-δ for SOFCs Applications E. Mercadelli, A. Sanson (ISTEC-CNR), L. Doubova (IENI-CNR), and S. Boldrini (ISIB-CNR)
o   1236   Oxidation and Reduction of Nano-grained Pt-GDC and Enhancement of Grain Boundary Conductivity S. Yamaguchi, K. Yoshimura, S. Miyoshi, and Y. Oyama (The University of Tokyo)
o   1237   Investigation of High Temperature Elastic Modulus and Internal Friction of SOFC Electrolytes Using Resonance Method T. Kushi, K. Sato, A. Unemoto, K. Amezawa, and T. Kawada (Tohoku University)
o   1238   Modified Sol-gel Method used for Obtaining SOFC Electrolyte Materials C. Suciu (Prototech AS), E. Erichsen, A. C. Hoffmann (University of Bergen), E. Dorolti, and R. Tetean (Babes-Bolyai University)
o   1239   Characterization of Co-doped LSGM Electrolyte Prepared by GNP for IT-SOFC D. Lee and J. Han (Korea University)
o   1240   Cation-Deficient and Alkali Earth Cation-Doped Solid Solutions La1-xMxGa1-yMgyO3-δ (M = VLa, Ca, Sr, Ba) Prepared by Different Techniques Y. G. Mateyshina and N. Uvarov (Institute of Solid State Chemistry and Mechanochemistry)
o   1241   Electrical Characterization of LSGM Electrolytes Synthesized via Co-precipitation Route S. Latorrata, L. Zampori, R. Pelosato, G. Dotelli, C. Cristiani (Politecnico di Milano), and R. Ruffo (University of Milano-Bicocca)
o   1242   Investigation on Crystal Structure and Oxide Ionic Conduction Path of LaGaO3-Based Oxide by in situ TOF Neutron Diffraction N. Kitamura, T. Sugiyama, Y. Idemoto (Tokyo University of Science), and T. Itoh (AGC Seimi Chemical Co., Ltd.)
o   1243   Two-step Synthesis of Yttrium-doped Barium Zirconate Protonic Conductors O. Oliveira, T. Andrade (IPEN), E. N. Muccillo (Energy and Nuclear Research Institute), M. Berton, C. Garcia (LACTEC), and R. Muccillo (IPEN)
o   1244   Fabrication and Generation of Intermediate Temperature Operating SOFC based on Y-doped BaZrO3 Proton Conducting Oxides F. Iguchi (Tohoku University), M. Nagai, N. Sata, and H. Yugami (Graduate school of engineering, Tohoku University)
o   1245   Effect on Small ZnO Addition on the Barium Zirconate Pellets P. Briois, A. Billard (LERMPS-UTBM), S. Georges (LEPMI-INPG), A. Shaula, and A. Cavaleiro (SEG-CEMUC)
o   1247   Electrical Transport and Electric Power Generation Properties of Lanthanum Silicate Oxyapatite Ceramics Prepared by a Sol-gel Method K. Kobayashi and C. Nishimura (National Institute for Materials Science)
o   1248   Mechanosynthesis, Sinterability and Conductivity of Modified La10-x(Si,B,P)6O27{plus minus}δ Solid Electrolytes J. R. Frade, C. Fernandes, X. Le, and F. Figueiredo (University of Aveiro)
o   1249   Structure and Transport Properties of Doped Apatite-type Lanthanum Silicates Prepared via Mechanochemical Route T. Kharlamova, S. Pavlova, V. A. Sadykov, Y. Bespalko, T. Krieger, O. Lapina, D. Khabibulin, V. Muzykantov (Boreskov Institute of Catalysis), M. Chaikina (Institute of Solid State Chemistry SB RAS, Novosibirsk, Russia), N. Uvarov (Institute of Solid State Chemistry and Mechanochemistry), Y. Pavlukhin (Institute of Solid State Chemistry SB RAS, Novosibirsk, Russia), S. Petrov (Institute of Solid State Chemistry and Mechanochemistry SB RAS), and C. Argirusis (Inst. for Metallurgy, Clausthal Univ. of Technology, Clausthal-Zellerfeld, Germany)
o   1250   BITX: New Electrolyte for Oxide Ion and Proton SOFC S. Noirault, E. Quarez (IMN), M. Caldes (Institut des Materiaux-CNRS), A. Le Gal La Salle (Institut des Matériaux Jean Rouxel), and O. Joubert (IMN)
o   1251   Comparison of Structural and Electrical Properties of Strontium Zirconate Pellets and Thin Films M. Arab Pour Yazdi (UTBM), P. Briois (Lermps-UTBM), S. Georges (LEPMI-INPG), A. Shaula, A. Cavaleiro (SEG-CEMUC), and A. Billard (LERMPS-UTBM)
o   1252   Effect of Gun Current of APS on Microstructure of Apatite-type Lanthanum Silicate (ATLS) Electrolyte Coatings W. Gao (State Key Lab of Superhard Materials), H. Liao, F. Lapostolle, and C. Coddet (LERMPS, University of Technology of Belfort-Montbéliard)
o   1253   Characterization of La0.8Sr0.2Co0.5Mn0.5O3-δ Coating on Alloy Interconnect in SOFC M. Han, X. Du, and Z. Liu (China University of Mining & Technology, Beijing)
o   1254   Oxidation Resistance Coating of Low Sinterability Conducting Ceramics by Aerosol Deposition on SOFC Metallic Interconnector J. Choi (Korea Institute of Materials Science), J. Choi, J. Ryu, B. Hahn, W. Yoon, B. Lee, and D. Park (Korea Insitutue of Materials Science)
o   1256   Characteristics of Metallic Coating on Metallic Interconnect for SOFCs J. E. Hong, R. Song (Korea Institute of Energy Research), T. Lim (Korea Institute of Energy Research (KIER)), S. Lee (Korea Institute of Energy Research), and D. Shin (Korea Institute of Energy Research (KIER))
o   1257   Effect of Ion Implantation on Oxidation Behavior in Crofer22APU Commercially used for SOFCs S. Hong (Seoul National University), P. Madakashira, D. Kim, Y. Cho, S. Han (Korea Institute of Science and Technology), and H. Han (Seoul National University)
o   1258   APS Deposition of MnCo2O4 on Commercial Alloys K41X Used as Solid Oxide Fuel Cell Interconnect: The Importance of Post Heat-Treatment for Densification of the Protective Layer E. Saoutieff (EIFER), G. Bertrand (UTBM), M. Zahid (European Institute for Energy Research), and L. Gautier (EIFER)
o   1259   Synthesis and Characterization of a Spinel Type Cr-Free Ceramic Interconnect Material for Solid Oxide Fuel Cells M. Yoon, J. Yoon (Inha University), H. Hwang (Department of Ceramic Engineering, Inha University), R. Song (Korea Institute of Energy Research), and D. Shin (Korea Institute of Energy Research (KIER))
o   1261   Improvement of Oxidation Resistance of Fe-Cr Ferritic Alloy Sheets for SOFC Interconnects N. Yasuda, T. Uehara, M. Okamoto, C. Aoki, T. Ohno, and A. Toji (Hitachi Metals,Ltd.)
o   1262   Long-Term Oxidation Behavior of Fe-Cr Ferritic Alloy ZMG232L for SOFC Interconnects T. Uehara, N. Yasuda, M. Okamoto, C. Aoki, T. Ohno, and A. Toji (Hitachi Metals,Ltd.)
o   1263   The Effect of Tungsten Addition on the Oxidation Behavior of Fe-22Cr-0.5Mn Steel D. Yun (Pohang University of Science and Technology), H. Seo (POSTECH), K. Kim (Pohang University of Science and Technology), J. Jun, J. Lee, and D. Kim (RIST)
o   1265   Long-Term Stability of the LSM-Coated Crofer22APU for Solid Oxide Fuel Cell Interconnect R. Song, S. Pyo (Korea Institute of Energy Research), S. Lee, T. Lim, and D. Shin (Korea Institute of Energy Research (KIER))
o   1266   Cr Evaporation of Metallic Interconnects: A Novel Method for Quantification J. Froitzheim, E. Larsson, and J. Svensson (Chalmers University of Technology)
o   1267   SOFC Powders and Unit Cell Research at NIMTE J. Wang, J. Shao, Y. Tao, and W. Wang (Ningbo Institute of Material Technology and Engineering)
o   1268   Nanostructured Functional Layers for SOFCs D. Soysal, C. Christenn (German Aerospace Center (DLR-ITT)), and A. Ansar (German Aerospace Center (DLR))
o   1269   Nanotechnology Applications to Fabrication of Solid Oxide Fuel Cells (SOFCs) S. Bozorgmehri and M. Hamedi (University of Tehran)
o   1271   Manufacturing Ceramic Tapes and Thick Film Pastes in an ISO 9001 Environment A. Feingold, Z. Topka, E. Twiname, P. Palanisamy, and R. Webb (ESL ElectroScience)
o   1272   Structural Stability of Silver Current Collector under Mixed Reactant, Solid Oxide Fuel Cell Conditions N. Akhtar, S. Decent, and K. Kendall (University of Birmingham)
o   1273   Metallic Current Collectors and Interconnectors Study for Anode Supported SOFC Operation at 800ºC K. Min (Samsung Electro-Mechanics), H. Lee (Central R&D Institute), J. Jung (Samsung Electro-Mechanics), J. Yoon, and H. Ryu (Central R&D Institute)
o   1274   New Type of Current Collectors with Modified Near-surface Layer N. Ledukhovskaya, G. Strukov, and S. I. Bredikhin (Institute of Solid State Physics Russian Academy of Science)
o   1276   Induction Brazing for Gas Sealing and Joint Properties of Anode Supported Solid Oxide Fuel Cells Y. Heo, S. Lee, T. Lim, D. Shin (Korea Institute of Energy Research (KIER)), and R. Song (Korea Institute of Energy Research)
o   1277   Influence of Electrical Load on the Stability of Glass Sealings A. Rost, J. Schilm, and M. Kusnezoff (Fraunhofer-Institut für Keramische Technologien und Systeme)
o   1278   Numerical Simulation of Intermediate-Temperature Disk Type Seal-less SOFC Using Pure Hydrogen Considering Air Back Diffusion Phenomenon T. Tanaka (Toyohashi University of Technology), Y. Inui (University of Shiga Prefecture), N. Chitose, and T. Akbay (Mitsubishi Materials Corporation)
o   1279   Micro-tubular SOFCs to Measure the Effects of Cross Flow on Mass Transfer Rates Around the Perimeter of a Cylindrical Electrode V. Lawlor (Upper Austria University of Applied Sciences and Dublin City University), D. Meissner (Dept. of Eco. Energy Eng., Upper Austria University of Applied Sci., A-4600 Wels. (Austria) and 3. Dpt. Mat. Sci., Tallinn Univ. of Technology, Ehitajate tee 5, Tallinn 19086. (Estonia)), C. Hochenauer, S. Griesser (Dept. of Eco. Energy Eng., Upper Austria University of Applied Sci., A-4600 Wels. (Austria)), S. Cordiner (University of Rome Dept. Mech. Eng. Via di Tor Vergata 110. Rome, 00133. (Italy)), G. Zauner (Dept. of Eco. Energy Eng., Upper Austria University of Applied Sci., A-4600 Wels. (Austria)), A. Olabi (Dept. of Manu. & Mech. Eng., DCU, Dublin 9. (Ireland)), and G. Buchinger (Dept. of Eco. Energy Eng., Upper Austria University of Applied Sci., A-4600 Wels. (Austria) and 4. eZelleron GmbH, Collenbuschstr. 22, 01324 Dresden. (Germany))
o   1281   Mathematical Modelling of Mass and Charge Transport and Reaction in the Central Membrane of the IDEAL-Cell T. Ou (Università di Pisa), F. Delloro (Consiglio Nazionale delle Ricerche (CNR)), C. Nicolella (Università di Pisa), W. G. Bessler (Deutsches Zentrum für Luft- und Raumfahrt), and A. S. Thorel (Centre des Materiaux - ENSMP)
o   1282   Simulations of Heat and Mass Transfers in Tubular Solid Oxide Electrolysis Cell J. Klein (Laboratoire d'Électrochimie et de Physico-chimie des Matériaux et des Interfaces), J. Deseure (LEPMI), and Y. Bultel (LEPMI-UMR 5631 CNRS-GINP-UJF)
o   1283   Electromotive Potential Distribution and Electronic Leak Currents in Working YSZ Based SOCs M. Mogensen and T. Jacobsen (The Technical University of Denmark)
o   1284   Simulation of a Tubular Solid Oxide Fuel Cell Stack Operating on Biomass Syn-gas using Aspen Plus W. G. Doherty, A. Reynolds, and D. Kennedy (Dublin Institute of Technology)
o   1285   Dynamic Electrochemical Model For SOFC-Stacks D. Klotz (Universität Karlsruhe (TH)), A. Weber, and E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik)
o   1286   Effective Transport Coefficients for Porous Microstructures in Solid Oxide Fuel Cells H. Choi, A. Berson, B. Kenney (Queen's-RMC Fuel Cell Research Centre), J. Pharoah (Queen's - RMC Fuel Cell Research Centre), S. Beale (National Research Council Canada), and K. Karan (Queen's - RMC Fuel Cell Research Centre)
o   1287   Quantitative Evaluation of Transport Properties of SOFC Porous Anode by Random Walk Process M. Kishimoto, H. Iwai, M. Saito, and H. Yoshida (Kyoto University)
o   1289   Using CFD Tools to Investigate New Concept of SC-SOFC J. A. Kadio, J. Klein, O. Doche (Laboratoire d'Électrochimie et de Physico-chimie des Matériaux et des Interfaces), J. Deseure (LEPMI), and Y. Bultel (LEPMI-UMR 5631 CNRS-GINP-UJF)
 

Tuesday, October 6, 2009

Hall B, Level 02 - Red

SOFC Stacks and System II

Co-Chairs: Scott Barnett and Min-Fang Han
TimeAbs#Title and Authors
08:00   1291   Long-Term Stability of Segmented Type Cell-Stacks Developed for Residential Use Less than 1 kW Y. Matsuzaki (Tokyo Gas Co., Ltd.) and S. Yamashita (Kyocera Co., Ltd)
08:20   1292   Development of kW Class SOFC Stack and System for Solid Oxide Fuel Cell Operating at Intermediate Temperature Y. Yoo, T. Lee, and J. Choi (Korea Electric Power Research Institute(KEPRI))
08:40   1293   Progress in the Metal Supported Solid Oxide Fuel Cells and Stacks for APU P. Szabo (DLR), J. Arnold (German Aerospace Center (DLR)), T. Franco (Plansee SE), M. Gindrat (Sulzer Metco), A. Refke (Sulzer Metco AG), A. Zagst (ElringKlinger), and A. Ansar (German Aerospace Center (DLR))
09:00   1294   Influence of Operating Conditions on the Reliable Performance of Stacks and Integrated Stack Modules B. E. Mai, T. Heller, D. Schimanke, J. Lawrence, and C. Wunderlich (Staxera GmbH)
09:20   1295   200 W Module Design using Micro Tubular SOFCs Y. Funahashi (Fine Ceramics Research Association (FCRA)), T. Suzuki, Y. Fujishiro (AIST), T. Shimamori (NGK Spark Plug co., ltd.), and M. Awano (AIST)
09:40 Intermission (20 Minutes)
10:00   1296   Development of the Gas Channel Integrated SOFC Cell and Stack at NGK Insulators, Ltd. T. Ryu, N. Takase, K. Matsuda, T. Kuno, and T. Ichigi (NGK Insulators, Ltd.)
10:20   1297   Power Dense SOFC Stacks for Mobile Use N. Erikstrup (Topsoe Fuel Cell A/S)
10:40   1298   Recent Results in Solid Oxide Fuel Cell Development at Forschungszentrum Juelich R. Steinberger-Wilckens (FZ Juelich), L. Blum (Institute of Energy Research IEF-3 Fuel Cells), H. Buchkremer (Forschungszentrum Jülich), L. De Haart, M. Pap, and R. Steinbrech (FZ Juelich)
11:00   1299   Performance Measurements of a Single-cell Stack using Various Designs of Flow Distributors for Planar SOFC C. Huang, S. Huang, S. Shy (National Central University), and C. Lee (Institute of Nuclear Energy Research)
11:20   1300   Generating Electricity at 60% Electrical Efficiency from 1 - 2 kWe SOFC Products R. Payne, J. Love, and M. Kah (Ceramic Fuel Cells Ltd)
11:40   1301   Operating Characteristics of Solid Oxide Fuel Cell Stacks and Systems N. Q. Minh (Consultant)
 

Hall C, Level 02 - Red

SOFC Electrolyte Materials, Processing and Performance

Co-Chairs: Gyeong Man Choi and Anil Virkar
TimeAbs#Title and Authors
08:00   1302   Constrained Sintering of Zirconia Films A. Atkinson, J. Kim, R. Rudkin, S. Taub, and X. Wang (Imperial College)
08:20   1303   Investigation of Electrical and Mechanical Properties of Tetragonal/Cubic Composite Electrolytes Prepared by Impregnation of 8YSZ with Zirconia Solution M. Ghatee (Shahrood University of technology), M. Shariat (Shiraz University), and J. Irvine (University of St Andrews)
08:40   1304   Phase Transformation in Spray Pyrolysis Yttria-stabilized-zirconia B. Scherrer, J. L. Rupp, A. Bieberle-Hutter, and L. J. Gauckler (ETH Zurich)
09:00   1305   Effects of Fe Addition on Densification and Conduction Property of Gadolinia Doped Ceria P. Limthongkul, P. Jivaganont, W. Loyma, N. Panaram, and S. Charojrochkul (National Metal and Materials Technology Center)
09:20   1306   Deformation and Fracture Characteristics of Zirconia and Ceria-Based Electrolytes for SOFCs under Reducing Atmospheres T. Hashida, K. Sato, Y. Takeyama, T. Kawada, and J. Mizusaki (Tohoku University)
09:40 Intermission (20 Minutes)
10:00   1307   Possible Suppression of Partial Electronic Conductivity by Electron Traps in Ce1-xGdxO2-x/2 S. Park and H. Yoo (Seoul National University)
10:20   1308   Oxygen Mobility under Mechanical Stress W. Araki and Y. Arai (Saitama University)
10:40   1309   High-Temperature Defect Structure and Crystal Structure of Perovskite Type Oxides S. Nakayama, K. Sato (Tohoku University), K. Yashiro (IMRAM), and J. Mizusaki (Tohoku University)
11:00   1310   Solid State NMR Studies of Defect Structures and Mobility in Doped Perovskites F. Blanc, D. Middlemass, L. Buannic, L. Holmes, R. Dervisoglu (Stony Brook University), D. Morgan (University of Wisconsin-Madison), and C. P. Grey (Stony Brook University)
11:20   1311   Role of Lattice Strain and Defect Chemistry on the Oxygen Vacancy Migration at the (8% Y2O3-ZrO2) / SrTiO3 Hetero-Interface: A First Principles Study A. Kushima (Massachusetts Institute of Technology) and B. Yildiz (MIT)
11:40   1312   Exploring Highly Yttrium Doped Barium Zirconate Proton Conductor Electrolytes for Application in Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs) E. Fabbri (International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS)), D. Pergolesi (Nanomaterials for Fuel Cells Group World Premier International Research Center for Materials Nanoarchitectonics (MANA) National Institute for Materials Science (NIMS)), S. Licoccia (University of Rome "Tor Vergata"), and E. Traversa (University of Rome Tor Vergata)
 

Hall B, Level 02 - Red

SOFC Cell Design, Testing and Performance I

Co-Chairs: Teruhisa Horita and Bert Rietveld
TimeAbs#Title and Authors
14:00   1313   Medium Temperature Solid Oxide Fuel Cells Based on the Micro-meso-macro-porous Cathodes and Anodes E. Lust, I. Kivi, R. Küngas, K. Tamm, P. Möller, A. Samussenko, E. Anderson, H. Kurig (University of Tartu), and G. Nurk (EMPA)
14:20   1314   In Situ Investigation of SOFC Patterned Electrodes using Ambient Pressure X-ray Photoelectron Spectroscopy A. McDaniel, F. El Gabaly, R. L. Farrow, K. F. McCarty, M. A. Linne (Sandia National Labs), S. C. Decaluwe, C. Zhang, G. S. Jackson (University of Maryland), H. Bluhm, Z. Liu, M. Grass, and Z. Hussain (Lawrence Berkeley National Laboratory)
14:40   1315   Investigation on Oxygen Potential Distribution in a ZrO2-Based Solid Electrolyte by Using In-Situ Micro XAS Technique K. Amezawa (Tohoku University), T. Ina, Y. Orikasa (Kyoto University), A. Unemoto, H. Watanabe, F. Iguchi (Tohoku University), Y. Terada (JASRI), T. Fukutsuka (Kyoto University), T. Kawada, H. Yugami (Tohoku University), and Y. Uchimoto (Kyoto University)
15:00   1316   Generalization of Degradation Mechanisms in Terms of Materials Chemical Nature, Operation Condition and Electrode Reaction Mechanisms H. Yokokawa (AIST), H. Kishimoto (National Institute of Advanced Industrial Science and Technology (AIST)), K. Yamaji, and T. Horita (AIST)
15:20   1317   Long-term, Redox and Thermal Cycling Stability of Electrolyte Supported Cells A. Glauche, T. Betz (Kerafol GmbH), S. Mosch, N. Trofimenko (FhG IKTS), and M. Kusnezoff (Fraunhofer-Institut für Keramische Technologien und Systeme)
15:40 Intermission (20 Minutes)
16:00   1318   Durability of Anode-supported SOFCs Stack using La(Ni,Fe)O3 Cathode Y. Yoshida, T. Komatsu, R. Chiba, M. Yokoo, K. Hayashi, H. Orui, and H. Arai (Nippon Telegraph and Telephone Corporation)
16:20   1319   In Situ Electrochemical Characterization of SOFC Cell Degradation: The Cases of Mechanical Damage and Carbon Deposition J. Laurencin, K. Girona (CEA - Grenoble), G. Delette (CEA Grenoble), and F. Lefebvre-Joud (CEA - Grenoble)
16:40   1320   Effect of Humidity in Air on Performance and Long-term Durability of SOFCs A. Hagen, M. Chen, K. Neufeld, and Y. Liu (Risoe DTU)
17:00   1321   Electrochemical Degradation of Fuel Cells: Effect of Electrolyte Composition H. Lim and A. V. Virkar (University of Utah)
17:20   1322   Locally-resolved Study of Degradation in a SOFC Z. Wuillemin, A. Nakajo, A. Müller (Ecole Polytechnique Fédérale de Lausanne), A. J. Schuler (EPFL-IGM-LENI), S. Diethelm, J. Van Herle (EPF Lausanne), and D. Favrat (Ecole Polytechnique Fédérale de Lausanne)
17:40   1323   Classification of Mechanical Failure in SOFC and Strategy for Evaluation of Operational Margin T. Kawada (Tohoku University), S. Watanabe (Tohoku Univ.), S. Hashimoto, T. Sakamoto, A. Unemoto, M. Kurumatani, K. Sato, F. Iguchi (Tohoku University), K. Yashiro (IMRAM), K. Amezawa, K. Terada, M. Kubo (Tohoku University), H. Yugami (Graduate school of engineering, Tohoku University), T. Hashida, and J. Mizusaki (Tohoku University)
 

Hall C, Level 02 - Red

SOFC Anode Materials, Processing and Performance I

Co-Chairs: Ellen Ivers-Tiffee and Tatsuya Kawada
TimeAbs#Title and Authors
14:00   1324   Quantification of Ni-YSZ Anode Microstructure Based on Dual Beam FIB-SEM Technique H. Iwai (Kyoto University), N. Shikazono (The University of Tokyo), T. Matsui (Kyoto University), H. Teshima (The University of Tokyo), M. Kishimoto, R. Kishida, D. Hayashi (Kyoto University), K. Matsuzaki, D. Kanno (The University of Tokyo), M. Saito, H. Muroyama, K. Eguchi (Kyoto University), N. Kasagi (The University of Tokyo), and H. Yoshida (Kyoto University)
14:20   1325   Nondestructive Imaging and Analysis of Transport Processes in the Solid Oxide Fuel Cell Anode K. Grew, A. A. Peracchio, J. R. Izzo, and W. Chiu (University of Connecticut)
14:40   1326   Determination of the Anode Flow Distribution in a SOFC Stack at Nominal Operating Conditions by EIS N. Dekker, J. F. Van Wees, and B. G. Rietveld (Energy research Centre of the Netherlands (ECN))
15:00   1327   Measurement of H2-H2O Effective Binary Diffusivity in Porous Anode of Solid Oxide Fuel Cells (SOFCs) W. He, K. Yoon, R. Eriksen, S. Gopalan, S. Basu, and U. B. Pal (Boston University)
15:20   1328   Electrochemical Analysis on Degradation in Ni-GDC Cermet Anode for SOFC H. Watanabe, A. Unemoto, K. Amezawa, and T. Kawada (Tohoku University)
15:40 Intermission (20 Minutes)
16:00   1329   Aspects of Metal-YSZ Electrode Kinetics Studied using Model Electrodes C. R. Graves (Columbia University) and M. Mogensen (The Technical University of Denmark)
16:20   1330   In Situ Reduction and Oxidation of Nickel from Solid Oxide Fuel Cells in a Titan ETEM A. Faes (EPFL - LENI), Q. Jeangros (EPFL - CIME), J. B. Wagner (DTU - CEN), A. Hessler-Wyser (EPFL - CIME), J. Van Herle (EPF Lausanne), A. Brisse (EIFER), and R. Dunin-Borkowski (DTU - CEN)
16:40   1331   Degradation Effects of Ni Patterned Anodes in H2/H2O Atmosphere A. Utz, A. Leonide (Universität Karlsruhe (TH)), A. Weber, and E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik)
17:00   1332   Performance Deterioration of Ni-based Cermet Induced by Electrochemically-generated Steam in Anode T. Matsui, R. Kishida, J. Kim, H. Muroyama, and K. Eguchi (Kyoto University)
17:20   1333   Chemical Degradation and Poisoning Mechanism of Cermet Anodes in Solid Oxide Fuel Cells K. Haga, Y. Shiratori, K. Ito, and K. Sasaki (Kyushu University)
17:40   1334   Ostwald Ripening and Oxidation Kinetics of Nickel Gadolinia Doped Ceria Anodes H. Galinski, J. Reuteler, A. Bieberle-Hutter, J. L. Rupp, and L. J. Gauckler (ETH Zurich)
 

Foyers B & C, Level 02 - Red

SOFC Poster II - Electrode Materials, Processing and Performance

Co-Chairs: Steven McIntosh and Wen Guo Wang
TimeAbs#Title and Authors
o   1335   Solid-state Synthesis of La0.7Sr0.3MnO3 Powders using Different Grinding Times L. Conceição, C. R. Silva, N. F. Ribeiro, and M. M. Souza (UFRJ)
o   1336   Electronic and Chemical State of La0.7Sr0.3MnO3 and Dense Thin-Film Cathode Surfaces K. Khabibulakh, B. Yildiz (MIT), B. Kavaipatti, and P. Salvador (CMU)
o   1337   Plasma Sprayed LSM Cathode for Solid Oxide Fuel Cells K. Wittmann-Ténèze and A. Sauvet (CEA)
o   1338   Structural Characterization of Sr-doped LaMnO3 and LaCrO3 Powders Synthesized by Combustion Method A. A. Silva (Universidade Federal do Rio de Janeiro), L. Conceição (UFRJ), A. Rocco (Universidade Federal do Rio de Janeiro), and M. M. Souza (UFRJ)
o   1339   Studies of Model SOFCs with Sr0.7Ce0.3MnO3 Cathode Material V. Sinitsyn (Institute of Solid State Physics Russian Academy of Sciences), I. Kuritsyna, S. Khasanov, D. Matveev (Institute of Solid State Physics), and S. I. Bredikhin (Institute of Solid State Physics Russian Academy of Science)
o   1340   Reducing the Cathode Losses by Optimization of IT-SOFC Cathode Microstructure L. Ma, H. Wang, and B. Xie (The University of Science and Technology of China)
o   1341   Transient Response of LSM Electrode under Cathodic Polarization Y. Jun, H. Muroyama, T. Matsui, and K. Eguchi (Kyoto University)
o   1342   Scandia-Stabilized Zirconia Impregnated (La, Sr)MnO3 Cathode for Tubular Solid Oxide Fuel Cells R. Liu (Shanghai Institute of Ceramics), C. Zhao (Shanghai Institute of Ceramics, Chinese Academy of Sciences), J. Li, S. Wang, Z. Wen, and T. Wen (Shanghai Institute of Ceramics)
o   1343   Study on the Influence of the Morphology of SOFC Cathodes Electrodes N. Grunbaum (LEPMI), L. Sant'Ana Gallo (Université Joseph Fourier), M. Steil (C.N.R.S.), and L. Dessemond (Université Joseph Fourier)
o   1344   Improvement of the Electrocatalytic Properties of IT-SOFC Cathodes based on the A0.58Sr0.4Fe0.8Co0.2O3-δ System by Multi-Element Substitution J. Serra and V. Vert (Instituto de Tecnologia Quimica (UPV-CSIC))
o   1345   Inhibition of the Electrode Particle Growth in the SOFC K. Murata, A. Hirano, N. Imanishi, and Y. Takeda (Mie University)
o   1347   Synthesis and Study of LSCF Perovskites for IT SOFC Cathode Application L. Ushkalov (Frantsevich Institute for Problems of Materials Sciences), O. D. Vasylyev (Institute for Problems of Materials Science), Y. Pryschepa, A. Samelyuk, and V. Melakh (Frantsevich Institute for Problems of Materials Sciences)
o   1348   Performance of (Ln0.5M0.5)FeO3-δ Perovskites as Cathode for SOFCs: Effect of Mean Radius of the A Site Cations K. Vidal (UPV/EHU), L. M. Rodriguez-Martinez (Ikerlan), L. Ortega-San-Martín (Instituto de Ciencia de Materiales de Aragón (ICMA-CSIC),), M. No (UPV/EHU), A. Laresgoiti (Ikerlan), T. Rojo, and M. Arriortua (Universidad del País Vasco)
o   1349   Effect of Infiltrate Solution Additives on Samarium Strontium Cobaltite-Cerium Gadolinium Oxide Nano-Composite SOFC Cathodes J. D. Nicholas, Y. Liao, and S. A. Barnett (Northwestern University)
o   1350   Electrochemical Study of New Cathode Materials based on LSCF and BIT07 for SOFC M. Letilly, A. Le Gal La Salle (Institut des Matériaux Jean Rouxel), M. Marrony, M. Zahid (European Institute for Energy Research), and O. Joubert (IMN)
o   1352   Improving Stochiometery and Processing of LSCF Oxygen Electrode for SOFC A. Ansar (German Aerospace Center (DLR)), D. Soysal (German Aerospace Center (DLR-ITT)), Z. Ilhan (German Aerospace Center - DLR - ITT), S. Wolf, N. Wagner, and R. Ruckdäschel (German Aerospace Center (DLR))
o   1353   Fabrication of Composite LSCF-SDC Cathode Coatings by Plasma Spray Processing J. Harris (University of Toronto) and O. Kesler (University of Toronto, Canada)
o   1354   Composite Cathode Study for Low Temperature SOFC X. Zhang, M. Robertson, C. Decès-Petit (NRC-Institute for Fuel Cell Innovation), and O. Kesler (University of Toronto, Canada)
o   1356   Electrochemical Performance of Nanostructured IT-SOFC Cathodes with Different Morphologies L. Baque (CONICET, Centro Atómico Bariloche, Av. Bustillo 9500, 8400 S. C. de Bariloche, Río Negro, Argentina), E. Djurado, C. Rossignol (Laboratoire d'Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5631 CNRS-Grenoble INP-UJF, BP. 75. 38402 Saint Martin d'Hères Cedex, France), A. Caneiro (CONICET, Centro Atómico Bariloche, Av. Bustillo 9500, 8400 S. C. de Bariloche, Río Negro, Argentina), A. Serquis (CONICET, Centro Atómico Bariloche), and D. Marinha (Laboratoire d'Electrochimie et de Physico-chimie des Matériaux et des Interfaces, LEPMI, UMR 5631 CNRS-Grenoble INP-UJF, BP. 75. 38402 Saint Martin d'Hères Cedex, France)
o   1357   Characterisation and Performance of SOFC Components Made by Reactive Spray Deposition Technology R. Neagu (National Research Council Canada), X. Zhang (NRC - IFCI), R. Maric (National Research Council Canada), and J. M. Roller (National Research Council of Canada)
o   1358   Performance Study of Alternative (La,Sr)FeO3-δ and (La,Sr)(Co,Fe)O3-δ MIEC Cathode Compositions A. Leonide (Universität Karlsruhe (TH)), B. Rüger, A. Weber, E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik), and W. Meulenberg (Forschungszentrum Jülich GmbH)
o   1359   Investigations of Graded Cathodes to Improve SOFC Electrochemical Performances M. Rieu (Université Paul Sabatier), R. Sayers (Imperial College of Science, Technology and Medicine), M. A. Laguna-Bercero (IMPERIAL COLLEGE), S. Skinner (Imperial College of Science, Technology and Medicine), P. Lenormand, and F. Ansart (Université Paul Sabatier)
o   1360   Oxygen Nonstoichiometry, Crystal Structure, and Mechanical Properties of La2NiO4+δ T. Nakamura, Y. Takeyama (Tohoku University), S. Watanabe (Tohoku Univ.), K. Yashiro (IMRAM), K. Sato, T. Hashida, and J. Mizusaki (Tohoku University)
o   1361   Property Study of La2-xSrxNiO4 (x {less than or equal to} 0.8) to be used for IT-SOFCs Cathode T. Inprasit (The Petroleum and Petrochemical College), P. Limthongkul (National Metal and Materials Technology Center), and S. Wongkasemjit (The Petroleum and Petrochemical College, Chulalongkorn University, Bangkok, Thailand)
o   1363   Characterization of SmBaCoFeO5+δ Cathode Material for Intermediate-temperature Solid Oxide Fuel Cells S. Lu, X. Meng (College of Physics), G. Long (College of Life Sciences), X. Wang, and Y. Ji (College of Physics)
o   1364   Improvement of Ba0.5Sr0.5Zn0.2Fe0.8O3-δ Cathode for Intermediate-Temperature Solid Oxide Fuel Cells L. Kong, Z. Lu, B. Wei, X. Huang, R. Su, and W. Su (Harbin Institute of Technology)
o   1365   Properties of Ba0.5Sr0.5Co0.8Fe0.2O3-δ Composite Membrane P. Zhu, M. Han, and Z. Yang (China University of Mining & Technology, Beijing)
o   1367   Fabrication and Properties of Perovskite-type Ln0.8Sr0.2Cu0.9Fe0.1O2.5-δ(Ln = La, Pr, Nd, Sm, Gd) X. Song, C. Zhong, F. Zhou, X. Hao, and S. An (Inner Mongolia University of Science and technology)
o   1368   Thermal Expansion Properties of Sr1-xLaxTiO3-δ Perovskites (0 <= x <= 0.3) in SOFC Operating Condition Z. Wang, M. Mori (Central Research Institute of Electric Power Industry), and T. Itoh (AGC Seimi Chemical Co., Ltd.)
o   1369   The Electrochemical and Thermal Performances of Ca3Co4O9-δ as a Cathode Material for IT-SOFCs K. Nagasawa (Yokohama National University), O. Mentre, S. Daviero-Minaud, N. Preux, A. Rolle (Ecole Nationale Supérieure de Chimie de Lille), and H. Nakatsugawa (Yokohama National University)
o   1371   Fast Oxygen Diffusion in Mixed Ionic-Electronic Conducting GaBaCo2O5+ δ M. Choi, S. Jeon, J. Lee (Chonnam Nationnal University), H. Hwang (Department of Ceramic Engineering, Inha University), and S. Song (Chonnam national university)
o   1372   Conductivities and Seebeck Coefficients of Donor-Doped-SrTiO3 Oxide Ceramics E. Niwa, K. Sato (Tohoku University), K. Yashiro (IMRAM), and J. Mizusaki (Tohoku University)
o   1373   Effect of the Synthetic Method on the Structure and Electrical Conductivity of La0.5Ba0.5FeO3 as SOFC Cathode Materials A. Ecija (Universidad Pais Vasco (UPV)), K. Vidal (UPV/EHU), A. Larrañaga (Universidad del Pais Vasco (UPV)), M. No (UPV/EHU), A. Laresgoiti (Ikerlan), and M. Arriortua (Universidad del País Vasco)
o   1374   Synthesis and Characterization of Ba0.5Sr0.5Co0.8Fe0.2O3-δ as Intermediate Temperature Solid Oxide Fuel Cell Cathode by Solid-State Reaction, Pechini and Citrate-EDTA Complexing Method I. Hung and C. Laing (Yuan Ze University)
o   1375   Thermal Stability of Silver-MOx (M = Mn, Fe, Co, Ni) Composite Cathode for IT-SOFCs H. Saka, A. Hirano, N. Imanishi, and Y. Takeda (Mie University)
o   1376   Combustion Synthesis of La0.6Sr0.4Co0.98Ni0.02O3 Cathode and Evaluation of its Electrical and Electrochemical Properties for IT-SOFC A. Dutta (Central Glass & Ceramic Research Institute, Kolkata, India), H. Götz (Institut für Werkstoffe der Elektrotechnik, Universität Karlsruhe (TH), Germany), S. Ghosh (Central Glass & Ceramic Research Institute, Kolkata, India), and R. N. Basu (Central Glass & Ceramic Research Institute)
o   1377   Oxygen Pathway in Ag Cathode using Oxygen Isotope Exchange and Secondary Ion Mass Spectroscopy M. Muranaka, K. Sasaki, A. Suzuki, and T. Terai (The University of Tokyo)
o   1378   Electrode Properties of Pr0.7Sr0.3Fe0.8Al0.2O3-δ Thin Film Prepared by Pulsed Laser Deposition H. Takahashi and H. Takamura (Tohoku University)
o   1379   Electrochemical Characterization of a La0.8Sr0.2Ni0.4Fe0.6O3-δ Electrode Interfaced with La9.83Si5Al0.75Fe0.25O26{plus minus}δ Apatite-type Electrolyte S. Bebelis (University of Patras), H. Gasparyan (University of Patras, Greece), C. Argirusis (Inst. for Metallurgy, Clausthal Univ. of Technology, Clausthal-Zellerfeld, Germany), C. Szepanski (Clausthal University of Technology, Germany), V. Stathopoulos (CERECO & Technical Educational Institute of Chalkida, Greece), T. Kharlamova, and V. A. Sadykov (Boreskov Institute of Catalysis)
o   1380   Performance of Zinc-doped Perovskite-type Cathodes at Intermediate Temperatures and Under Carbon Dioxide Atmosphere J. Martynczuk (Nonmetallic Inorganic Materials), K. Efimov (Institute of Physical Chemistry and Electrochemistry), L. Robben (Institute of Mineralogy), and A. Feldhoff (Institute of Physical Chemistry and Electrochemistry)
o   1381   Characterisation of Cuprate Based Cathode Structures by AC Impedance M. Cassidy and J. Irvine (University of St Andrews)
o   1382   Ionic and Electronic Conductivity of (Ln1-xCax)2Ti2O7-δ (Ln = Dy, Ho, Yb; x = 0.1) Pyrochlores S. Savvin (University of La Laguna), D. Belov (Department of Chemistry, Moscow State University), A. Shlyakhtina, L. Shcherbakova (Semenov Institute of Chemical Physics, Russian Academy of Sciences), J. Ruiz-Morales (Universidad de La Laguna), and P. Núñez (Dpto. Química Inorgánica. Universidad de La Laguna. Tenerife-Spain)
o   1383   SmBaCo2O5+δ and LnBa0.5Sr0.5Co2O5+δ, Potential Cathode Materials for IT-SOFC J. Kim (Kaist, KOREA), J. Bae (Korea Advanced Institute of Science and Technology (KAIST)), and J. Irvine (University of St Andrews)
o   1384   Enhanced ASC Performance at 600°C by Ceria Barrier Layer Optimisation F. P. Van Berkel, Y. Zhang-Steenwinkel, G. Schoemakers, M. Van Tuel (ECN), and B. G. Rietveld (Energy research Centre of the Netherlands (ECN))
o   1385   Bias-assisted Sputtering of Gadolinia-doped Ceria Interlayers for Solid Oxide Fuel Cells F. C. Fonseca (IPEN), S. Uhlenbruck, R. Nedéléc, and H. Buchkremer (Forschungszentrum Jülich)
o   1386   Doped Ceria Diffusion Barrier Layers for LSCo Infiltrated into YSZ R. Küngas, F. Bidrawn, J. Vohs, and R. Gorte (University of Pennsylvania)
o   1387   Investigation of the Potential Distribution in SOFC with LSM and SYCM Cathodes by Means of Build-in Potential Electrode I. N. Burmistrov (Institute of Solid State Physics Russian Academy of Sciences) and S. I. Bredikhin (Institute of Solid State Physics Russian Academy of Science)
o   1388   Effect of Electrolyte Contribution on the Electrochemical Behaviour of Pr0.8Sr0.2Fe0.8Ga0.2O3 N. Ortiz-Vitoriano, I. Ruiz de Larramendi, J. Ruiz de Larramendi, M. Arriortua, and T. Rojo (Universidad del País Vasco)
o   1389   Nonstoichiometry and Electrochemical Performance of SOFC Cathodes X. Zhou (PNNL)
o   1390   Fused LSM: A Novel Powder Limiting the Formation of La2Zr2O7 and SrZrO3 Resistive Phases at the Interface with YSZ in SOFC Cathodes C. Levy, Y. Zhong, C. Morel, and S. Marlin (Saint-Gobain)
o   1391   Flexible Contact Layer Between Cathode and Interconnect of SOFC Z. Xie and Q. Zhu (Institute of process Engineering, CAS)
o   1392   Oxidation Behavior and Electrical Conductivity between Ln0.8Sr0.2MnO3 Cathode and Crofer 22 APU with Spinel Coatings N. Ledukhovskaya, E. Korovkin (Institute of solid state physics russian academy of Science), V. Sinitsyn (Institute of Solid State Physics Russian Academy of Sciences), and S. I. Bredikhin (Institute of Solid State Physics Russian Academy of Science)
o   1393   Electrochemical Study of LSCF/BIT07 as a Possible Cathode/electrolyte Couple for SOFC M. Letilly, A. Le Gal La Salle (Institut des Matériaux Jean Rouxel), and O. Joubert (IMN)
o   1394   Sulfur as Pollutant Species on the Cathode Side of a SOFC System A. J. Schuler (EPFL-IGM-LENI), Z. Wuillemin (Ecole Polytechnique Fédérale de Lausanne), A. Hessler (EPFL-SB-CIME), and J. Van Herle (EPF Lausanne)
o   1395   Effect of SO2 Concentration on Degradation of Sm0.5Sr0.5CoO3 Cathode K. Yamaji (AIST), Y. Xiong (Harbin Institute of Technology), M. Yoshinaga (AIST), H. Kishimoto (National Institute of Advanced Industrial Science and Technology (AIST)), M. Brito, T. Horita, H. Yokokawa (AIST), J. Akikusa (Mitsubishi Materials Corporation), and M. Kawano (The Kansai Electric Power Co. Inc.)
o   1396   Electrochemical Behaviour of La2Ni0.6Cu0.4O4+δ Oxide on SDC Electrolyte as Cathode for IT-SOFC D. Pérez-Coll, A. Aguadero, M. J. Escudero (CIEMAT), and L. Daza (ICP-CSIC)
o   1397   Strong Metal Support Interactions of Infiltrated Ni with TiO2 in a Porous YSZ Anode Matrix: A Possible Mechanism for Ni-stabilization C. Singh, L. Bansal, P. Tiwari (IIT Delhi), and V. V. Krishnan (Indian Institute of Technology Delhi)
o   1398   Operation of Ni-YSZ Anode Supported Solid Oxide Fuel Cell on Different Simulated Syngas T. Chen (NIMTE), T. Li, H. Miao (Ningbo Institute of Materials Technology & Engineering, Chiense Academy of Sciences), W. Wang (Ningbo Institute of Material Technology and Engineering), and Y. Wu (NIMTE)
o   1399   Electrochemical Characterisation of SOFC Anodes T. Ramos (Risø-DTU) and M. Mogensen (The Technical University of Denmark)
o   1401   High Performance SOFC Anode with Metal Nano-Particles Produced by Partial Reduction Reaction N. Osada, T. Fukasawa (Toshiba Corporation, Corporate R&D Center), and M. Yamada (Toshiba Corporation, Power Systems Company)
o   1402   Electrochemical Properties of NiO-ScSZ Anodes Prepared from Composite Precursor Containing Ni and Zr K. Doumae, T. Usui (Tanaka Chemical Corporation), T. Yasui, S. Watanabe (Daiichikigenso Kagaku Kogyo Co., LTD.), T. Oshima, Y. Shiratori, and K. Sasaki (Kyushu University)
o   1403   Performance and Long-term Durability of Nanostructured Ni Anodes Doped with Transition Metals prepared by Spray Mist Dryer K. Araki, J. Yamamoto (Kyushu University, Faculty of Engineering), Y. Shiratori, K. Ito, and K. Sasaki (Kyushu University)
o   1404   Electrochemical Behavior of Ni-CZO Cermet Anodes Prepared by Glycine-nitrate-process D. H. Prasad, H. Kim, J. Park, H. Lee, and J. Lee (Korea Institute of Science and Technology)
o   1405   Phase Transformation of ScSZ by Reduction of NiO-ScSZ Mixture H. Kishimoto (National Institute of Advanced Industrial Science and Technology (AIST)), M. Yoshinaga, K. Yamaji, M. Brito, T. Horita (AIST), and H. Yokokawa (Tokyo City University)
o   1406   Characterization of Ceria Surface Electrochemistry with Patterned Metals Y. Hao, W. Chueh, and S. Haile (California Institute of Technology)
o   1407   Optimization of the Charge Transfer Process in the Composite Ni-YSZ Cermet Anodes I. S. Bredikhin (Institute of Solid State Physics, RAS), S. I. Bredikhin (Institute of Solid State Physics Russian Academy of Science), and V. V. Kveder (Institute of Solid State Physics, RAS)
o   1408   Methane Internal Reforming over Ni1-x-yCuxMgyO-SDC Anode Material at Intermediate Temperatures M. Phongaksorn, M. Ismail, E. Croiset, S. Corbin (University of Waterloo), and Y. Yoo (National Research Council Canada)
o   1410   Three-Dimensional Numerical Simulation of Ni-YSZ Anode Polarization Using Reconstructed Microstructure from FIB-SEM Images K. Matsuzaki, D. Kanno, H. Teshima, N. Shikazono, and N. Kasagi (The University of Tokyo)
o   1411   Effect of Microstructure on performance for Solid Oxide Fuel Cells of Ni-ScSZ Cermet Anode M. Miyazaki (The Uniersity of Tokyo), K. Sasaki, A. Suzuki, and T. Terai (The University of Tokyo)
o   1412   Theoretical Study for Properties of SOFC Anode Using Three-Dimensional Porous Structure Simulator T. Ogura, T. Ishimoto, R. Nagumo, and M. Koyama (Kyushu University)
o   1414   3-Dimensionally Ordered Macroporous Ni-YSZ for Low Temperature SOFC H. Munakata, M. Otani, Y. Katsuki, and K. Kanamura (Tokyo Metropolitan University)
o   1415   Stability of Ni/Y-doped SrTiO3-YSZ Anode in Reduction-oxidation Cycles T. Ikebe (Graduate School of Engineering, Kyoto University), H. Muroyama, T. Matsui, and K. Eguchi (Kyoto University)
o   1416   Effect of Doping Elements on the Redox Kinetics of NiO-YSZ powders for SOFC Applications A. Contino (Università degli Studi di Trento), M. Cologna (Sofcpower), S. Modena (HTceramix-SofcPower), and V. Sglavo (Università degli Studi di Trento)
o   1417   Anode Performance Enhancement by Reverse Current Treatment D. Klotz, A. Leonide (Universität Karlsruhe (TH)), and E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik)
o   1419   Ni/YSZ Anode Interactions with Impurities in Coal Gas O. A. Marina, L. R. Pederson, C. A. Coyle, E. C. Thomsen, and G. W. Coffey (Pacific Northwest National Laboratory)
o   1420   Generalized Ellingham Diagrams for Utilization in Solid Oxide Fuel Cells with an Emphasis on Interactions of Nickel Cermet Anode with Impurities in Coal Synthesis Gas H. Yokokawa (AIST), H. Kishimoto (National Institute of Advanced Industrial Science and Technology (AIST)), K. Yamaji, and T. Horita (AIST)
o   1421   Suppression of Anode Degradation by Sulfur using an Anionic Catalyst K. R. Thampi (University College, Dublin, Ireland), S. Rambert (Ecole Polytechnique Fdérale de Lausanne, Switzerland), and A. J. McEvoy (Consultant)
o   1422   Effects of Impurities Contained in Coal-derived Syngas on the Performance of SOFCs K. Kuramoto (AIST), K. Matsuoka, Y. Suzuki, H. Kishimoto (National Institute of Advanced Industrial Science and Technology (AIST)), K. Yamaji (AIST), Y. Xiong (Harbin Institute of Technology), T. Horita, M. Brito (AIST), and H. Yokokawa (Tokyo City University)
o   1423   Correlation between Crystalline Phase of ScSZ and Carbon Deposition Behavior Over Ni-ScSZ Anode for Internal Reforming of Solid Oxide Fuel Cells T. Matsui, T. Iida, R. Kikuchi (Kyoto University), M. Kawano (The Kansai Electric Power Co. Inc.), T. Inagaki (The kansai Electric Power Co., Inc.), H. Muroyama, and K. Eguchi (Kyoto University)
o   1424   Improvement of Ni/SDC Anode by Alkaline Earth Metal Oxide Addition for Direct Methane-SOFC M. Asamoto, S. Miyake, K. Sugihara, S. Yamaguchi, and H. Yahiro (Ehime University)
o   1425   Ni-Fe Cermet as Stable Anode for Direct CH4-Type SOFC H. Zhong, H. Matsumoto, and T. Ishihara (Kyushu University)
o   1426   Methane Oxidation at the Ni1-XCoX-Samaria-Doped Ceria Cermet Anode T. Hiromasa, W. Weerapakkaroon, T. Kanjanaboonmalert, T. Wah Tzu, and K. Sato (Nagaoka University of Technology)
o   1427   New Ni/ MIEC Cermet Anode for SOFC based on the Electrolyte BaIn0.3Ti0.7O2.85 M. Caldes, F. Moser (Institut des Materiaux-CNRS), V. Garcia (Universidad de Antioquia), C. Batiot-Dupeyrat (Université de Poitiers), A. Moreno (Universidad de Antioquia), M. Zahid (European Institute for Energy Research), and O. Joubert (IMN)
o   1428   Internal Steam Reforming of CH4 on a New Carbon Tolerant Au-Ni/GDC SOFC Anode D. Niakolas (Foundation for Research and Technology, Institute of Chemical Engineering and High Temperature Chemical Processes (FORTH/ICE-HT)), J. Ouweltjes (Energy research Centre of the Netherlands ECN), B. G. Rietveld (Energy research Centre of the Netherlands (ECN)), and S. G. Neophytides (Foundation for Research and Technology/Institute of Chemical Engineering and High Temperature Chemical Processes)
o   1429   Performance of a New Cu-ceria Based Anode for SOFCs Running on Different Fuels A. Fuerte, R. Valenzuela, M. J. Escudero (CIEMAT), and L. Daza (ICP-CSIC)
o   1430   Study of CuFe-Ce0.9Gd0.1O2-δ as IT-SOFC Anode: Catalytic Activity, Thermal Expansion, Morphology, Electrical Conductivity and Chemical Compatibility A. Fuerte (CIEMAT), A. Hornes, P. Bera, A. Martínez-Arias (ICP-CSIC), M. J. Escudero (CIEMAT), and L. Daza (ICP-CSIC)
o   1431   Development of Multilayer Anodes for Proton-conducting Solid Oxide Fuel Cells M. Taillades, P. Batocchi, A. Essoumhi, G. Taillades, D. J. Jones (Université Montpellier 2), and J. Rozière (Institut Charles Gerhardt UMR 5253)
o   1432   Modified Perovskite Materials for Solid Oxide Fuel Cell Anodes Fed with Glycerol M. Lo Faro, D. La Rosa, M. Minutoli, G. Monforte, V. Antonucci, and A. Aricò (CNR-ITAE)
o   1433   Impedance Identification of Lanthanum Strontium Vanadate Anode in H2-H2O-He atmosphere X. Ge and S. Chan (Nanyang Technological University)
o   1434   La0.2Sr0.8TiO3 as a Possible Anode for the LaGaO3-based Solid Oxide Fuel Cell K. Yoo and G. Choi (POSTECH)
 

Wednesday, October 7, 2009

Hall B, Level 02 - Red

SOFC Cell Design, Testing and Performance II

Co-Chairs: Juergen Fleig and Eric Wachsman
TimeAbs#Title and Authors
08:00   1435   A Novel Co-firing Process for Multi-layers of Solid Oxide Fuel Cells M. Han, Z. Li (China University of Mining & Technology, Beijing), H. Le (School of Engineering, Physics and Mathematics, University of Dundee), and W. Shao (China University of Mining & Technology, Beijing)
08:20   1436   Performance Analysis of Single Step Co-fired Solid Oxide Fuel Cells (SOFCs) K. Yoon, S. Gopalan, and U. B. Pal (Boston University)
08:40   1437   Progress in Metal-Supported SOFCs M. Tucker, T. Sholklapper, G. Lau, L. DeJonghe, and S. Visco (Lawrence Berkeley National Lab)
09:00   1438   Recent Development Aspects of Metal Supported Thin-Film SOFC T. Franco, M. Brandner, M. Rüttinger, G. Kunschert, A. Venskutonis, and L. Sigl (Plansee SE)
09:20   1439   Tubular Metal Supported SOFC Development for Domestic Power Generation I. Villarreal, M. Rivas, L. M. Rodriguez-Martinez, L. Otaegi, A. Zabala, N. Gomez, M. Alvarez, I. Antepara, N. Arizmendiarrieta, J. Manzanedo, M. Olave, A. Urriolabeitia (Ikerlan), N. Burgos (CEIT, Centro de Estudios e Investigaciones Técnicas de Guipuzcoa), F. Castro (CEIT), and A. Laresgoiti (Ikerlan)
09:40 Intermission (20 Minutes)
10:00   1440   A Flexible Solid Oxide Fuel Cell Supported on the Thin Porous Metal H. Cho (POSTECH), Y. Min Park (Fuel Cell Project, Research Institute of Industrial), and G. Choi (POSTECH)
10:20   1441   Development of Planar Metal Supported SOFC with Novel Cermet Anode P. Blennow, J. Hjelm, T. Klemensø, Å. Persson, K. Brodersen, A. Srivastava, H. Frandsen, M. Lundberg, S. Ramousse (Risø National Laboratory for Sustainable Energy, Technical University of Denmark), and M. Mogensen (The Technical University of Denmark)
10:40   1442   Metal-supported Solid Oxide Fuel Cell with Diesel Reformer J. Bae, S. Baek, J. Jeong, and S. Yoon (Korea Advanced Institute of Science and Technology (KAIST))
11:00   1443   High Power SOFC Using LSGM Film on Ni-Fe Porous Bi-metal Substrate Y. Ju and T. Ishihara (Kyushu University)
11:20   1444   IDEAL-Cell, a High Temperature Innovative Dual mEmbrAne Fuel-Cell A. S. Thorel, A. Chesnaud (Centre des Materiaux - ENSMP), M. Viviani (National Research Council), A. Barbucci (University of Genova - DICHeP), S. Presto (National Research Council, IENI), P. Piccardo (University of Genova - DCCI), Z. Ilhan (German Aerospace Center - DLR - ITT), D. E. Vladikova, and Z. Stoynov (Institute of Electrochemistry and Energy Systems - BAS)
11:40   1445   Compatibility and Reactivity between Materials in an Innovative Dual mEmbrAne fueL-Cell (IDEAL-Cell) Design G. Caboche (Université de Bourgogne), J. Hochepied (Mines ParisTech, CEP/SCPI 60 Bd Saint-Michel 75006 Paris, France), P. Piccardo (University of Genova - DCCI), K. Przybylski (AGH-University of Science & Technology, Faculty of Materials Science & Ceramics, Department of Solid State Chemistry, Al. Mickiewicza 30, 30-059 Krakow, Poland), R. Ruckdäeschel (German Aerospace Center (DLR-ITT) Pfaffenwaldring 38-40, D-70569 Stuttgart, Germany), M. Ardigo, E. Fatome, S. Chevalier, A. Perron, L. Combemale (Institut Carnot de Bourgogne, UMR CNRS 5209, Uni-versité de Bourgogne, BP 47870, 21078 Dijon Cedex, France), M. Palard (Mines ParisTech, CEP/SCPI 60 Bd Saint-Michel 75006 Paris, France), J. Prazuch (AGH-University of Science & Technology, Faculty of Materials Science & Ceramics, Department of Solid State Chemistry, Al. Mickiewicza 30, 30-059 Krakow, Poland), and T. Brylewski (AGH-University of Science & Technology Faculty of Materials Science & Ceramics Department of Solid State Chemistry Al. Mickiewicza 30 30-059 Krakow Poland)
 

Hall C, Level 02 - Red

SOFC Anode Materials, Processing and Performance II

Co-Chairs: Anja Bieberle-Hutter and Kevin Kendall
TimeAbs#Title and Authors
08:00   1446   Development of La-doped Ni-SDC Anode for High Performance IT-SOFC of Ni-SDC/LSGM/SSC K. Kawahara, S. Suda (Japan Fine Ceramics Center), M. Kawano (The Kansai Electric Power Co. Inc.), H. Yoshida (The Kansai Electric Power Co., INC), and T. Inagaki (The kansai Electric Power Co., Inc.)
08:20   1447   Microstructural Studies of Impregnated Manganese Containing Perovskite SOFC Electrodes G. Corre (University of St Andrews), G. Kim (Ulsan National Institute of Science and Technology (UNIST)), M. Cassidy (University of St Andrews), R. Gorte, J. Vohs (University of Pennsylvania), and J. Irvine (University of St Andrews)
08:40   1448   Electrode Behavior of Ni/GDC and Pd-Ni/GDC Cermets in H2/H2S Fuels of Solid Oxide Fuel Cells S. Jiang, L. Zhang, and H. He (Nanyang Technological University)
09:00   1449   Effect of Operation Conditions on Soot Formation in SOFC Stacks S. Kavurucu Schubert (Fraunhofer Institute for Ceramic Technologies and Systems) and M. Kusnezoff (Fraunhofer-Institut für Keramische Technologien und Systeme)
09:20   1450   Mitigation of Carbon Deposits Formation in IT-SOFCs Fed with Dry Methane by Anode Doping with Barium A. Aricò, D. La Rosa, M. Lo Faro, M. Minutoli, G. Monforte, and V. Antonucci (CNR-ITAE)
09:40 Intermission (20 Minutes)
10:00   1451   Effect of Coal Syngas Fuel Composition on the Performance and Stability of Oxide Anodes D. M. Bierschenk, J. M. Haag, K. R. Poeppelmeier, and S. A. Barnett (Northwestern University)
10:20   1452   Influence of Some Inorganic Impurities on the Electrochemical Properties and Microstructure of Ni-CGO Anode in Artificial Woodgas Atmosphere G. Nurk, P. Holtappels, and A. Kubacki (EMPA)
10:40   1453   Intermediate Temperature SOFC Anode Component Based on A-Site Deficient La-Doped SrTiO3 C. D. Savaniu (School of Chemistry, University of St Andrews, Fife, Scotland, UK) and J. Irvine (University of St Andrews)
11:00   1454   Oxide Composite Anode of Ce0.6Mn0.3Fe0.1O2 and La0.6Sr0.4Fe0.9Mn0.1O3 for Oxidation Tolerant SOFC T. Ishihara, T. Shin, and P. Vanalabhpatana (Kyushu University)
11:20   1455   Investigation of Sr-doped and Sr-free LaMn1-yCryO3{plus minus}δ Perovskites as Sulfur Tolerant SOFC Anodes L. Deleebeeck and V. I. Birss (University of Calgary)
11:40   1456   Use of Electroless Anode Active Layer in Anode-supported Planar SOFC M. Mukhopadhyay, J. Mukhopadhyay, A. Das Sharma, and R. N. Basu (Central Glass & Ceramic Research Institute)
 

Thursday, October 8, 2009

Hall B, Level 02 - Red

SOFC Cell Design, Testing and Performance III

Co-Chairs: Koichi Eguchi and John Irvine
TimeAbs#Title and Authors
08:00   1457   Semi-Empirical Equations to Estimate SOFC Lifetime G. DiGiuseppe and L. Sun (Kettering University)
08:20   1458   Solid Oxide Fuel Cells with Atomic Layer Deposited Platinum Catalyst C. Chao and F. B. Prinz (Stanford University)
08:40   1459   Fabrication and Performance of Ni-Fe Metal-supported SOFC using Gd-doped Ceria Electrolyte Y. Kang and G. Choi (POSTECH)
09:00   1460   High Efficiency Reversible Fuel Cells M. A. Laguna-Bercero (Imperial College London), R. Campana, A. Larrea (ICMA (CSIC-Univ. Zaragoza)), J. Kilner (Imperial College London), and V. Orera (ICMA (CSIC-Univ. Zaragoza))
09:20   1461   Thin Film Electrolyte Micro-SOFC: Fabrication and Performance Improvement Through Thin Film Electrolyte and Nanostructure Electrodes H. Noh (Korea Institute of Science and Technology), H. Lee (Korea University), J. Lee, H. Lee, and J. Son (Korea Institute of Science and Technology)
09:40 Intermission (20 Minutes)
10:00   1462   Fabrication of Anode Supported Microtubular SOFCS by Dip-Coating Process on NiO/YSZ Hollow Fibers N. Yang (Shanghai Jiao Tong University), X. Tan, X. Meng (Shandong University of Technology), Y. Yin, and Z. Ma (Shanghai Jiao Tong University)
10:20   1463   Long Term Performance Stability of Individual Microtubular SOFCs Operating in the Intermediate Temperature Regime K. V. Galloway and N. M. Sammes (Colorado School of Mines)
10:40   1464   Cycling Studies of Microtubular SOFCs K. Kendall and C. Dikwal (University of Birmingham)
11:00   1465   Comparison of Mechanical Testing Methods for Microtubular Solid Oxide Fuel Cells B. R. Roy and N. M. Sammes (Colorado School of Mines)
11:20   1466   Geometric Effects of Triple Phase Boundary in Fuel Cell Kinetics Y. Kim, C. Chao, T. M. Gür, and F. B. Prinz (Stanford University)
11:40   1467   Guidelines for Thin Film Usage and Microfabrication for Solid Oxide Fuel Cell Application A. Bieberle-Hutter, A. Evans, H. Galinski, J. L. Rupp, T. Ryll, B. Scherrer, R. Toelke, and L. J. Gauckler (ETH Zurich)
 

Hall C, Level 02 - Red

SOFC Cathode Materials, Testing and Performance I

Co-Chairs: Junichiro Mizusaki and Anke Hagen
TimeAbs#Title and Authors
08:00   1469   Analysis of LSM-YSZ Composite Cathode Phase Connectivity from Three-Dimensional Reconstructions J. Wilson, J. Cronin (Northwestern University), A. Duong, D. Mumm (University of California - Irvine), and S. A. Barnett (Northwestern University)
08:20   1470   High Temperature Defect Equilibrium, Solid State Properties and Crystal Structure of La0.6Sr0.4Co1-yFeyO3-δ (y = 0.2, 0.4, 0.6, 0.8) for Cathode of Solid Oxide Fuel Cells Y. Fukuda, K. Sato (Tohoku University), K. Yashiro (IMRAM), and J. Mizusaki (Tohoku University)
08:40   1471   Long-Term Study of MIEC Cathodes for Intermediate Temperature Solid Oxide Fuel Cells C. Endler, A. Leonide (Universität Karlsruhe (TH)), A. Weber, E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik), and F. Tietz (Forschungszentrum Jülich GmbH)
09:00   1472   Electrochemical Characterization of Micropatterned La0.6Sr0.4Co0.2Fe0.8O3 Thin Film Structures on SiO2 Chips T. Ryll, B. Scherrer, R. Toelke, J. L. Rupp, A. Bieberle-Hutter, and L. J. Gauckler (ETH Zurich)
09:20   1473   Oxygen Reduction Kinetics and Transport Properties of (Ba,Sr)(Co,Fe)O 3-δ SOFC Cathode Materials L. Wang (Max Planck Institute for Solid State Research), R. Merkle (MPI for Solid State Research), T. Acartürk, U. Starke (Max Planck Institute for Solid State Research), and J. Maier (MPI for Solid State Research)
09:40   1474   Structural and Chemical Investigations of (La, Sr)CoO3-δ Thin Film Electrodes Exhibiting Extremly Fast Oxygen Reduction Kinetics J. Januschewsky (Vienna University of Technology), M. Kubicek, M. Stoeger-Pollach, J. Bernardi (Vienna UT), and J. Fleig (Vienna University of Technology)
10:00 Intermission (20 Minutes)
10:20   1370   Synthesis and Characterization of LnBaCo2O5+δ Layered Perovskites as Cathodes for Intermediate-Temperature Solid Oxide Fuel Cells W. Wang, T. Peh (Institute of Materials Research and Engineering, A*STAR), S. Chan (Nanyang Technological University), and T. Zhang (Institute of Materials Research and Engineering, A*STAR)
10:40   1475   Design and Characterization of Functionally Graded Cathode Materials for Solid Oxide Fuel Cells V. A. Sadykov, S. Pavlova, V. Zarubina, A. Bobin, G. Alikina, A. Lukashevich, V. Muzykantov, V. Usoltsev, A. Boronin, T. Krieger, A. Ishchenko, N. Mezentseva (Boreskov Institute of Catalysis), A. Smirnova (University of Connecticut, Storrs, CT, 06259, USA), O. Bobrenok (Institute of Thermophysics SB RAS, Novosibirsk, 630090, Russia), and N. Uvarov (Institute of Solid State Chemistry and Mechanochemistry)
11:00   1476   A2MO4+δ Oxides: Flexible Electrode Materials for Solid Oxide Cells J. C. Grenier, F. Chauveau (ICMCB-CNRS, Univ. Bordeaux 1), J. Dailly (EDF- EIfER), C. Lalanne (ICMCB-CNRS), M. Marrony (EDF- EIfER), F. Mauvy (ICMCB-CNRS, Univ. Bordeaux 1), J. Mougin (CEA-Grenoble), and J. Bassat (ICMCB-CNRS)
11:20   1477   Oxygen Exchange Kinetics and Chemical Stability of the New IT-SOFC Cathode Material Nd2NiO4+δ A. Egger, E. Bucher, W. Sitte (University of Leoben), C. Lalanne, and J. Bassat (ICMCB-CNRS)
11:40   1478   Electrochemical Performance of Cells Containing Alternative Oxygen Electrodes, Ln2NiO4+δ (Ln = Nd, La) F. Chauveau (ICMCB-CNRS, Univ. Bordeaux 1), J. Mougin (CEA-Grenoble), F. Mauvy, and J. C. Grenier (ICMCB-CNRS, Univ. Bordeaux 1)
 

Hall B, Level 02 - Red

SOFC - Alternativel Fuels

Co-Chairs: Nigel Brandon and Tatsumi Ishihara
TimeAbs#Title and Authors
14:00   1479   Solid Oxide Fuel Cell Fuelled by Biofuels J. Milewski and J. Lewandowski (Warsaw University of Technology)
14:20   1480   SOFC Running on Biogas: Identification and Experimental Validation of "Safe" Operating Conditions K. Girona, J. Laurencin (CEA - Grenoble), M. Petitjean (CEA), J. Fouletier (LEPMI INP Grenoble), and F. Lefebvre-Joud (CEA - Grenoble)
14:40   1570   Generation of Electricity from Bio-wastes Using Solid Oxide Fuel Cell Y. Shiratori (Kyushu University), T. Ijichi (Tosu Kankyo Kaihatsu Ltd.), T. Oshima, and K. Sasaki (Kyushu University)
15:00   1482   Ethanol in Simple SOFC Systems M. Breite (Fraunhofer Institute for Ceramic Technologies and Systems), M. Jahn, T. Pfeifer (Fraunhofer IKTS), and J. Bernard (Südzucker AG)
15:20   1483   Ethanol Fuelled SOFC with ZnO Addition in the Anode D. Z. De Florio, F. N. Tabuti (UFABC), F. C. Fonseca, and R. Muccillo (IPEN)
15:40 Intermission (20 Minutes)
16:00   1484   Development of a Methanol SOFC APU Demonstration System J. Rechberger, R. Schauperl (AVL List GmbH), J. Hansen (Haldor Topsøe A/S), and P. Larsen (TOFC - Topsoe Fuel Cell A/S)
16:20   1485   Direct Methanol Solid Oxide Fuel Cell S. A. Kuliyev (Vestel Defence Industry), S. Aksongur (Vestel Electronic Industry Inc.), M. D. Mat (Nigde University), and B. Ibrahimoğlu (Gazi University)
16:40   1486   Utilization Modes for Solid Carbon Conversion in Fuel Cells T. M. Gür (Stanford University)
17:00   1487   A Novel Direct-Carbon Solid Oxide Fuel Cell Y. Tang, J. Liu (South China University of Technology), and J. Sui (Qingdao University of Science and Technology)
17:20   1488   Liquid Tin Anode SOFC for Direct Fuel Conversion: Impact of Coal and Logistic Fuel Contaminants T. Tao, W. McPhee, M. Koslowske, and J. Bentley (CellTech Power)
17:40   1489   Degradation in Solid Oxide Fuel Cells Operating with Alternative Fuels M. LaBarbera, M. Fedkin, J. Lee, Z. Zhow, and S. Lvov (Penn State University)
 

Hall C, Level 02 - Red

SOFC Cathode Materials, Processing and Performance II

Co-Chairs: Alan Atkinson and Jorge Frade
TimeAbs#Title and Authors
14:00   1490   Insight into Rate Limiting Mechanisms of Porous La1-xSrxCoO3-δ Electrodes through Nonlinear Electrochemical Impedance Spectroscopy (NLEIS) C. R. Kreller and S. Adler (University of Washington)
14:20   1491   Oxygen Incorporation Reaction into Mixed Conducting Perovskites: A DFT-Based Kinetic Analysis for (La,Sr)MnO3 R. Merkle, Y. Mastrikov (MPI for Solid State Research), E. Heifets (Institute for Solid State Physics University of Latvia), E. Kotomin, and J. Maier (MPI for Solid State Research)
14:40   1492   Trends of Ab Initio Oxygen Reduction Reaction Energetics of LaBO3 (B = Mn, Fe, Co, and Ni) for Solid Oxide Fuel Cells Y. Lee, D. Morgan (University of Wisconsin-Madison), J. Kleis, and J. Rossmeisl (Technical University of Denmark)
15:00   1493   Ab Initio Thermokinetic Modeling of LSM{001} Surface Properties for Solid Oxide Fuel Cells Y. Lee and D. Morgan (University of Wisconsin-Madison)
15:20   1494   Mechanistic Understanding of Cr Poisoning of Solid Oxide Fuel Cell Cathodes E. D. Wachsman, D. Oh, E. Armstrong, D. Jung, and C. Kan (University of Florida)
15:40 Intermission (20 Minutes)
16:00   1495   Accelerated Degradation of SOFC Cathodes by Cr Vapors T. Horita (AIST), Y. Xiong (Harbin Institute of Technology), M. Yoshinaga (AIST), H. Kishimoto (National Institute of Advanced Industrial Science and Technology (AIST)), K. Yamaji, M. Brito, and H. Yokokawa (AIST)
16:20   1497   Chromium Poisoning of LSM Cathodes: Results from Stack Testing N. H. Menzler (Forschungszentrum Jülich), I. Vinke (Forschungszentrum Jülich, IEF-3), and H. Lippert (Forschungszentrum Jülich, ZCH)
16:40   1496   Systematic Study of Chromium Poisoning of LSM Cathodes: Single Cell Tests A. Neumann, N. H. Menzler (Forschungszentrum Jülich), I. Vinke (Forschungszentrum Jülich, IEF-3), and H. Lippert (Forschungszentrum Jülich, ZCH)
17:00   1498   Electrochemical Property of Cr-containing Cathode Materials for Metal-supported Solid Oxide Fuel Cell S. Baek, S. Lee, and J. Bae (Korea Advanced Institute of Science and Technology (KAIST))
17:20   1499   La(Ni,Fe)O3 Stability in the Presence of Cr Species: Solid-State Reactivity Study M. K. Stodolny (Energy research Center of the Netherlands ECN), F. P. Van Berkel (ECN), and B. A. Boukamp (Inorganic Materials Science, Faculty of Science and Technology, University of Twente, The Netherlands)
17:40   1500   Investigation of Cathode Behavior and Surface Chemistry of Model Thin Film SrTi1-xFexO3-δ Electrode W. Jung and H. L. Tuller (MIT)
 

Foyers B & C, Level 02 - Red

SOFC Poster III - Cell and Stack Design, Testing and Performance

Co-Chairs: Olga Marina and Anil Virkar
TimeAbs#Title and Authors
o   1502   Evaluating SOFC-based Power System Concepts for Unmanned Undersea Vehicles R. Braun and K. Kattke (Colorado School of Mines)
o   1504   Performance Analysis of Solid Oxide Fuel Cell - Micro Gas Turbine Hybrid System Using Biogas Y. Komatsu, S. Kimijima (Shibaura Institute of Technology), and J. S. Szmyd (AGH - University of Science and technology)
o   1505   From Energy Policies to Active Components in Solid Oxide Fuel Cells: State-of-the-Art and the Way Ahead A. Aarva, S. J. McPhail (Enea), and A. Moreno (ENEA Research Centre)
o   1507   Development and Performance of Planar SOFC Stacks W. Guan, H. Zhai, Z. Li, F. Li, and W. Wang (Ningbo Institute of Material Technology and Engineering)
o   1508   Comparison of the Degradation of the Polarization Resistance of Symmetrical LSM-YSZ Cells, with Anode Supported Ni-YSZ/YSZ/LSM-YSZ SOFCs I. M. Torres da Silva, J. Nielsen (Risø-DTU), J. Hjelm (Risø National Laboratory for Sustainable Energy, Technical University of Denmark), and M. Mogensen (The Technical University of Denmark)
o   1509   Development of SOFC Performance and Durability Evaluations Technology T. Yamamoto, H. Morita, M. Yoshikawa, F. Yoshiba, K. Asano, K. Yasumoto, and Y. Mugikura (Central Research Institute of Electric Power Industry)
o   1510   Behavior of High Temperature Type SOFC Materials under Thermal Cycle K. Yasumoto, T. Yamamoto (Central Research Institute of Electric Power Industry), K. Takei (Central Research Institute of Electric Power Industry (CRIEPI)), Y. Izaki (Central Research Institute of Electric Power Industry), and T. Minamizono (Kyushu Electric Power Co., Inc.)
o   1511   Effect of High Current Loading on the Performance Enhancement of SOFCs K. Murakami, H. Muroyama, T. Matsui, R. Kikuchi, and K. Eguchi (Kyoto University)
o   1512   Effect of Presintering Treatment of Anode Substrate on the Densification and Flatness of YSZ Electrolyte by Suspension Spray L. Zhang, S. Zhang, L. Bi, H. Wang, and B. Xie (The University of Science and Technology of China)
o   1513   Structure Modification Effect of Tubular Anode-Supported SOFC Single Cells H. Ryu, H. Lee (Central R&D Institute), K. Min (Samsung Electro-Mechanics), J. Jung, and J. Yoon (Central R&D Institute)
o   1514   Improvement on the Performance of Cathode-supported Tubular Solid Oxide Fuel Cells Fabricated by Dip-coating and Co-sintering Techniques C. Zhao (Shanghai Institute of Ceramics, Chinese Academy of Sciences), R. Liu, S. Wang, and T. Wen (Shanghai Institute of Ceramics)
o   1515   Micro-SOFC Supported on Ni-Fe Metal Film Y. Lee and G. Choi (POSTECH)
o   1516   Metal-Supported SOFC Development at JPOWER S. Sakuno, S. Takahashi, and H. Sasatsu (Electric Power Development Co., Ltd. (JPOWER))
o   1517   Fabrication of Cerium Oxide Based SOFC Having a Porous Stainless Steel Support N. Oishi and Y. Yoo (National Research Council Canada)
o   1518   Novel Procedures for the Microstructural Design of SOFC Materials J. Ruiz-Morales (Universidad de La Laguna), S. Savvin (University of La Laguna), P. Núñez (Dpto. Química Inorgánica. Universidad de La Laguna. Tenerife-Spain), J. Peña-Martínez, J. Canales-Vázquez (Instituto de Energías Renovables-Universidad Castilla la Mancha. Albacete-Spain), D. Marrero-López (Dept. Física Aplicada I, Universidad de Málaga. Málaga-Spain), J. Roa (DIOPMA. Dept. Ciencia de los Materiales e Ing. Metalúrgica. Barcelona-Spain), and M. Segarra (dDIOPMA. Dept. Ciencia de los Materiales e Ing. Metalúrgica. Barcelona-Spain)
o   1519   Fabrication of Proton Conducting Solid Oxide Fuel Cells by using Electrophoretic Deposition E. Di Bartolomeo, M. Zunic, L. Chevallier (University of Rome Tor Vergata), A. D'Epifanio, S. Licoccia (University of Rome "Tor Vergata"), and E. Traversa (University of Rome Tor Vergata)
o   1520   Suspension Plasma Spraying to Manufacture Electrodes for Solid Oxide Fuel Cell (SOFC) and Solid Oxide Electrolysis Cell (SOEC) O. Marchand (UTBM-LERMPS), E. Saoutieff (EIFER), P. Bertrand, M. Planche, O. Tingaud (UTBM-LERMPS), and G. Bertrand (UTBM)
o   1521   Thick-film Electrolyte-supported SOFCs for Rapid Thermal Cycling J. Joo and G. Choi (POSTECH)
o   1522   Development of Disk-Type Intermediate Temperature Solid Oxide Fuel Cell by KEPCO & MMC F. Nishiwaki, A. Kinugasa, M. Kato, T. Inagaki (The kansai Electric Power Co., Inc.), K. Hirata, M. Sato, and H. Eto (Mitsubishi Materials Corporation)
o   1524   The Opportunity of Using Mesoporous Thin Films as Interface in SOFC Devices C. Laberty-Robert (UPMC Paris VI), J. Hierso (UPMC Paris VI, France), O. Sel (UPMC Paris VI), A. Ringuede (LECIME, Ecole de Chimie Paris Paris VI, France), L. Bianchi (CEA-Le Ripault, France), and C. Sanchez (UPMC Paris VI)
o   1525   Fabrication of Trilayered Structure for Solid Oxide Fuel Cells by Electrophetic Depositions H. Tsai, Y. Chang, P. Wu, and P. Lin (National Chiao Tung University)
o   1526   Influence of Thermal Treatment During Cell Manufacturing on the Performance of Tape Cast Solid Oxide Fuel Cells W. Schafbauer (Forschungszentrum Juelich GmbH), N. H. Menzler, and H. Buchkremer (Forschungszentrum Jülich)
o   1527   Preparation of Thin Functional Layers for Anode Supported SOFC by Roll Coating Process O. Büchler, M. Bram, R. Mücke, and H. Buchkremer (Forschungszentrum Jülich)
o   1530   Co-extrusion / Phase inversion / Co-sintering for Fabrication of Hollow Fiber Solid Oxide Fuel Cells N. D. Droushiotis, M. Othman (Imperial College), U. Doraswami (Imperial College London), K. Li, and G. Kelsall (Imperial College)
o   1532   Current Instability in Solid Oxide Fuel Cells I. N. Burmistrov (Institute of Solid State Physics Russian Academy of Sciences) and S. I. Bredikhin (Institute of Solid State Physics Russian Academy of Science)
o   1533   Determination of Global/Local Fuel Utilization via Variation of Fuel Utilization A. Reinert and T. Strohbach (Staxera GmbH)
o   1534   Effect of Flowfield Design on Solid Oxide Fuel Cell Performance M. Kornely (Institut für Werkstoffe der Elektrotechnik (IWE)), A. Leonide (Universität Karlsruhe (TH)), A. Weber, and E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik)
o   1535   Numerical Modeling and Performance Study of a SOFC Button Cell Y. M. Barzi and A. Raoufi (Niroo Research Institute)
o   1536   Performance Analysis of a Tubular SOFC Using a Comprehensive Thermoelectrochemical Model J. Ghanadan (KNT University), Y. Mollayi Barzi (Azad University, Kashan branch), and M. Ghassemi (KNT University)
o   1537   Near-Infrared Imaging of SOFCs with Methane and Propane Fuels M. B. Pomfret (U.S. Naval Research Laboratory), D. Steinhurst (Nova Research), D. Kidwell, and J. C. Owrutsky (U.S. Naval Research Laboratory)
o   1538   Electrochemical Properties of Electrode-Supported La0.75Sr0.25Ga0.8Mg0.16 Fe0.04 O3-δ Solid Oxide Fuel Cells J. Yu and S. Woo (Korea Institute of Energy Research)
o   1539   Effects of Clamping Load on the Thermal Stress Distribution in a Planar SOFC with Compressive Sealing C. Lin, L. Huang (National Central University), L. Chiang, and Y. Chyou (Institute of Nuclear Energy Research)
o   1540   Thermal Analysis of a Microtubular Solid Oxide Fuel Cell Using Electrochemical Impedance Spectroscopy H. Nakajima, T. Konomi, and T. Kitahara (Kyushu University)
o   1541   Uncertainty Analysis in SOFC Performance Testing A. Momma, K. Takano, Y. Tanaka, and T. Kato (National Institute of Advanced Industrial Science and Technology)
o   1543   Development of Reformate-Model-Gas Generator for SOFC Testing Y. Tanaka, K. Kato, A. Negishi, K. Nozaki, and T. Kato (National Institute of Advanced Industrial Science and Technology)
o   1544   Development of Testing ZIG for Tubular SOFC Cell H. Choi, Y. Jee, S. Lha, and S. Cha (Seoul National University)
o   1545   A Correction for Impedance Measurements using the Three Point Electrode Technique in SOFCs J. A. Escobar, S. Pakalapati, I. B. Celik, and H. Finklea (West Virginia University)
o   1546   Carbon Deposition and Power Density in Rechargeable Direct Carbon Fuel Cells with Gadolinium Doped Ceria and Scandium Stabilized Zirconia Y. Tagawa, F. Ohba, C. Takei, and M. Ihara (Tokyo Institute of Technology)
o   1547   Study on Electrolyte-Supported Single Chamber Solid Oxide Fuel Cell Stack Z. Lu, J. Wang, B. Wei, X. Huang, Z. Wang, and W. Su (Harbin Institute of Technology)
o   1548   Single Chamber Solid Oxide Fuel Cells (SC-SOFCs) based on a Proton Conducting Electrolyte A. D'Epifanio (University of Rome "Tor Vergata"), E. Fabbri (International Center for Materials Nanoarchitectonics (MANA), National Institute for Materials Science (NIMS)), E. Di Bartolomeo (University of Rome Tor Vergata), S. Licoccia (University of Rome "Tor Vergata"), and E. Traversa (University of Rome Tor Vergata)
o   1549   IDEAL-Cell, Innovative Dual mEmbrAne fueL-Cell: Fabrication and Electrochemical Testing of First Prototypes S. Presto (National Research Council, IENI), A. Barbucci (University of Genova - DICHeP), M. Viviani (National Research Council), Z. Ilhan (German Aerospace Center - DLR - ITT), A. Ansar (German Aerospace Center (DLR)), D. Soysal (German Aerospace Center (DLR-ITT)), A. S. Thorel (Centre des Materiaux - ENSMP), J. Abreu (Centre des Matériaux, Mines-ParisTech), A. Chesnaud (Centre des Materiaux - ENSMP), T. Politova (Centre des Matériaux, Mines-ParisTech), K. Przybylski, J. Prazuch (AGH-University of Science & Technology, Faculty of Materials Science & Ceramics, Department of Solid State Chemistry, Al. Mickiewicza 30, 30-059 Krakow, Poland), Z. Zhao (University of Stockholm), D. E. Vladikova, and Z. Stoynov (Institute of Electrochemistry and Energy Systems - BAS)
o   1550   Proton Conducting IT-SOFC Utilizing Internally Steam Reformed Alcohol Fuels M. Azimova and S. McIntosh (University of Virginia)
o   1551   Performance of Protonic Ceramic Fuel Cell Based on Yb-Doped BaZrO3 Electrolyte J. Park, J. Lee, H. Lee, and B. Kim (Korea Institute of Science and Technology)
o   1552   Effect of Anode Composition on the Performances of Cathode Supported Microchannel SOFCs T. Yamaguchi (National Institute of Advanced Industrial Science and Technology (AIST)), S. Shimizu (FCRA), T. Suzuki, Y. Fujishiro, and M. Awano (AIST)
o   1553   Performance of 30W-class SOFC Module using Anode Supported Micro Tubular Cells T. Otake, F. Okada, Y. Mizutani (Toho Gas Co., Ltd.), and Y. Funahashi (Fine Ceramics Research Association (FCRA))
o   1554   Fabrication and Characterization of LSC/GDC Composites as Current Collecting Materials for Microtubular SOFCs J. Yin, K. Murata, T. Misono (Hosokawa Powder Technology Research Institute), and T. Fukui (Institute of Nanotechnology, Kurimoto, LTD.)
o   1555   Atomic Layer Deposition of Ceria-based Thin Films as Interlayer in the Application of Solid Oxide Fuel Cells Z. Fan and F. Prinz (Stanford University)
o   1556   Inherent and Induced Conduction in PSZ Cells with Nanocomposite Electrodes I. Prokhorov (Donetsk Phys. Tech. Institute)
o   1557   Effect of Cathode Porosity on the Performances of Cathode Supported Honeycomb SOFCs S. Shimizu (FCRA), T. Yamaguchi (National Institute of Advanced Industrial Science and Technology (AIST)), T. Suzuki, Y. Fujishiro, and M. Awano (AIST)
o   1558   Foturan Glass Ceramic: A Substrate for Power Delivering Freestanding µ-SOFC Membranes R. Toelke, A. Bieberle-Hutter, J. L. Rupp, and L. J. Gauckler (ETH Zurich)
o   1560   Miniaturized Low-Temperature Solid Oxide Fuel Cells with an Yttria-Stabilized-Zirconia Foil Electrolyte A. Evans, A. Bieberle-Hutter, L. J. Bonderer, P. Chen, D. Hodel, J. L. Rupp, and L. J. Gauckler (ETH Zurich)
o   1561   Agglomeration of Pt Thin Films, a Model System for Micro-SOFC Anodes H. Galinski, T. Ryll, P. Elser, J. Reuteler, J. L. Rupp, A. Bieberle-Hutter, and L. J. Gauckler (ETH Zurich)
o   1562   The Use of Conventional SOFC Electrodes in High Temperature Water Electrolysis Mode: An Electrochemical Study of Ni-Cermet and LSM D. Grondin, N. Grunbaum, J. Deseure (LEPMI), A. Brisse (EIFER), M. Zahid (European Institute for Energy Research), and P. Ozil (LEPMI)
o   1563   Development of Tubular Solid Oxide Electrolysis Cells for Hydrogen Production T. Kato, N. Sakaki, A. Negishi, T. Honda, L. Nguyen, Y. Tanaka, A. Momma, K. Kato, and Y. Iimura (National Institute of Advanced Industrial Science and Technology)
o   1564   Non-Ionic Conduction Phenomena in Yttria Stabilized Zirconia Electrolyte in SOFC Operated in the Electrolysis Mode J. Schefold, A. Brisse (EIFER), and M. Zahid (European Institute for Energy Research)
o   1565   Preparation and Performance of CuO-GDC Anode Supported Unit Cells for Direct Utilization of Hydrocarbon Fuels J. Lee, J. Myung, H. Ko, and S. Hyun (Yonsei University)
o   1567   Performance Improvement of Oxide Catalyst-doped Anode Supported SOFCs for Methane Fuel J. Myung, J. Lee, and S. Hyun (Yonsei University)
o   1569   On the Development of an Electrochemical Sensor to Measure SOFC Fuel Gas Compositions Y. Wu (SINERGY Centre, A*STAR) and Y. Zhen (Institute of Chemical and Engineering Sciences, A*STAR)
o   1572   Effect of Buffer Layer on Electrochemical Performance for Metal-Supported SOFC Y. Kim (KAIST) and J. Bae (Korea Advanced Institute of Science and Technology (KAIST))
o   1573   The Influence of Water Vapor and SO2 on the Durability of Solid Oxide Fuel Cell R. Liu (Faculty of Engineering,Kyushu University), S. Kim, Y. Shiratori, T. Oshima, K. Ito, and K. Sasaki (Kyushu University)
o   1574   Fabrication and Characterisation of Cathode Support Tubes for Micro-tubular SOFC Application H. Luebbe, J. Van Herle, S. Diethelm (EPF Lausanne), H. Hofmann, P. Bowen (EPFL), and F. Snijkers (VITO)
o   1575   Field Testing of SOFC at CMR Prototech I. Warnhus (CMR Prototech)
o   1576   Development of Anode Supported Tubular SOFC Components M. M. Seabaugh, S. Cummings, A. Miller (NexTech Materials, Ltd.), and S. Menzer (CoorsTek, Inc.)
o   1577   Effect of Nano Ion Conductor Infiltration on the Performance of Anode Supported Solid Oxide Fuel Cells C. Timurkutluk, B. Timurkutluk, M. D. Mat (Nigde University), B. Ibrahimoğlu (Gazi University), I. Pamuk, and I. Pamuk (Vestel Savunma Sanayi AS)
o   1578   Degradation Studies on Tubular Metal Supported SOFC L. M. Rodriguez-Martinez, L. Otaegi, M. Rivas, N. Gomez, M. Alvarez, A. Zabala, N. Arizmendiarrieta, I. Antepara, I. Villarreal, and A. Laresgoiti (Ikerlan)
o   1579   Degradation of Symmetrical Cathode-Interlayer-Electrolyte Cells A. Martinez-Amesti (UPV/EHU), A. Larrañaga (Universidad del Pais Vasco (UPV)), L. M. Rodriguez-Martinez (Ikerlan), M. No (UPV/EHU), and M. Arriortua (Universidad del País Vasco)
o   1580   Novel Oxidative Fuel Desulfurization System G. Alptekin, A. Jayaraman, R. Cook, M. Dubovik, M. Schaefer, and J. Monroe (TDA Research, Inc)
 

Friday, October 9, 2009

Hall B, Level 02 - Red

SOFC Cell, Stack and System Modeling

Co-Chairs: Joongmyeon Bae and Robert Kee
TimeAbs#Title and Authors
08:00   1581   Three-dimensional Modeling of Anode-supported Planar SOFC with Direct Internal Reforming Z. Qu, P. Aravind, H. Ye (Delft University of Technology), N. Dekker (Energy research Centre of the Netherlands (ECN)), N. Woudstra, and A. Verkooijen (Delft University of Technology)
08:20   1582   Physically Based Model-Predictive Control for SOFC Stacks and Systems T. Vincent, B. Sanandaji, A. Colclasure, H. Zhu, and R. J. Kee (Colorado School of Mines)
08:40   1583   Connected Three Phase Boundary Length in Modeled Sintered Composite Solid Oxide Fuel Cell Electrodes C. Metcalfe (University of Toronto), O. Kesler (University of Toronto, Canada), T. Rivard, F. Gitzhofer, and N. Abatzoglou (Université de Sherbrooke)
09:00   1584   Design and Optimisation of SOFC System Components using a Trio Approach: Measurements, Design of Experiments, and 3D Computational Fluid Dynamics M. Peksen, R. Peters, L. Blum, and D. Stolten (Institute of Energy Research IEF-3 Fuel Cells)
09:20   1585   SOFC Modeling Considering Internal Reforming by a Global Kinetics Approach M. Andersson (Lund University), J. Yuan, and B. Sundén (Lund University, Department of Energy Sciences)
09:40 Intermission (20 Minutes)
10:00   1586   3D Electrode Microstructure Reconstruction and Modelling B. Rüger, J. Joos (Institut für Werkstoffe der Elektrotechnik), T. Carraro (Institute of Applied Mathematics), A. Weber, and E. Ivers-Tiffée (Institut für Werkstoffe der Elektrotechnik)
10:20   1587   Numerical Simulation of Reactive Transport Phenomena in the Hexis SOFC System Y. Safa and T. Hocker (Zurich University of Applied Sciences)
10:40   1588   Detailed Modeling of an Anode-supported Solid Oxide Fuel Cell Using a Fully Three-dimensional Approach T. X. Ho, P. Kosinski, A. C. Hoffmann (University of Bergen), and A. Vik (CMR Prototech AS)
11:00   1589   Modelling Potential, Current and Gas Velocity Distributions in Hollow Fiber SOFC Stacks U. Doraswami (Imperial College London), N. D. Droushiotis, and G. Kelsall (Imperial College)
11:20   1590   Coupling Complex Reformer Chemical Kinetics with Three-Dimensional Computational Fluid Dynamics G. Goldin (ANSYS), H. Zhu, K. Kattke, A. Dean, R. Braun, R. J. Kee (Colorado School of Mines), D. Zhang, and O. Deutschmann (University of Karlsruhe)
11:40   1591   Physics of Failure based Damage Modeling for SOFC Development and Validation G. Gassner, F. Langmayr, and P. Prenninger (AVL List GmbH)
 

Hall C, Level 02 - Red

SOFC Interconnection and Seal Materials

Co-Chairs: Ulf Bossel and Kazunari Sasaki
TimeAbs#Title and Authors
08:00   1592   High Volume Component Fabrication of Ready-to-Stack Components for Planar SOFC Concepts A. Venskutonis, M. Brandner, W. Kraussler, and L. Sigl (Plansee SE)
08:20   1594   Oxidation and Creep Studies of Porous E-Brite for Solid Oxide Fuel Cell Interconnects J. A. Scott and D. Dunand (Northwestern University)
08:40   1595   Thermal Spray Processes and Materials for Coating Applications of SOFC Components M. Gindrat (Sulzer Metco), A. Refke, and H. Höhle (Sulzer Metco AG)
09:00   1260   Influence of the Processing Method on the Quality of the Protective Coatings for SOFC Applications C. Comminges (EIFER), M. Zahid (European Institute for Energy Research), I. Larring (SINTEF Materials and Chemistry), and F. Tietz (Forschungszentrum Jülich GmbH)
09:20   1596   Novel Method for Measuring Chromia Evaporation from SOFC Interconnect Materials M. Casteel, P. Willson, T. Goren, P. O'Brien (Rensselaer Polytechnic Institute), and D. Lewis (Rensselaer Polytechinc Institute)
09:40 Intermission (20 Minutes)
10:00   1597   Reduction of Chromium Evaporation with Manganese-based Coatings R. Trebbels (Forschungszentrum Jülich), T. Markus, and L. Singheiser (Research Center Juelich)
10:20   1598   Interface Resistance between FeCr Interconnects and La0.85Sr0.15MnO3 L. Mikkelsen (Risø-DTU) and P. Vang Hendriksen (Risoe/DTU)
10:40   1599   New Glass Ceramic Sealants for SOFC D. Goedeke (SCHOTT Electronic Packaging GmbH), J. Besinger (SCHOTT Electronic Packaging), and B. Ruedinger (SCHOTT AG)
11:00   1600   High Temperature Glass-Ceramic Seals for SOFC Applications C. Liu, T. Yung, K. Lin, R. Lee, and S. Wu (Institute of Nuclear Energy Research)
11:20   1601   Gas Sealing Reliability of Glass/Ceramic Composite Seals under SOFC Working Conditions S. Suda, K. Kawahara, K. Jono, and Y. Mizuta (Japan Fine Ceramics Center)
11:40   1602   Materials Development for SOFC Applications M. M. Seabaugh, M. Day, M. Beachy, and S. Ibanez (NexTech Materials, Ltd.)
 

Hall B, Level 02 - Red

SOFC - General and Closing Session

Co-Chairs: Subhash Singhal and Harumi Yokokawa
TimeAbs#Title and Authors
14:00   1603   Development of a Lower Temperature SOFC E. D. Wachsman (University of Florida)
14:20   1506   2R-Cell: Reliability upon Multi Thermo and Redox-Cycles R. Ihringer (company)
14:40   1501   Performance Map of the Staxera Integrated Stack Module with Partly Internal Reforming S. Kluge, O. Posdziech (EBZ GmbH), B. E. Mai, and J. Lawrence (Staxera GmbH)
15:00   1604   Investigation of the Oxygen Exchange Reaction on Pt/YSZ: The Relation between Three Phase Boundaries and Electrode Performance A. K. Opitz, A. Schintlmeister, A. Lutz, H. Hutter, and J. Fleig (Vienna University of Technology)
15:20   1606   Activation of LSM-Based SOFC Cathodes: Dependence of Mechanism on Polarization Time M. Haider, A. Vance, and S. McIntosh (University of Virginia)
15:40 Intermission (20 Minutes)
16:00   1400   The Role of Interstitial Hydrogen Species in Ni/YSZ Patterned Anodes: A 2D Modeling Study M. Vogler (German Aerospace Center (DLR)) and W. G. Bessler (Deutsches Zentrum für Luft- und Raumfahrt)
16:20   1607   Chemically Assisted Hydrogen Generation through Oxygen Ion Conducting MIEC Membranes H. Wang, R. Eriksen, S. Gopalan, and U. B. Pal (Boston University)
16:40   1608   Co-generation of Electricity and Syngas under Electrochemical Partial Oxidation using Novel SOFCs I. Kim, N. McDonald, P. Blaszczak, S. Barnett, and T. Shastry (Functional Coating Technology)
17:00   1609   A Combined System of an SOFC and PEFCs H. Yakabe, H. Yoshida, and S. Amaha (Tokyo Gas Co., Ltd)
17:20 Symposium Summary and Concluding Remarks - Subhash C. Singhal (20 Minutes)