SOFC-XIV: Poster Session 3 (SOFC Electrolytes, Cells and Stacks)

Thursday, 30 July 2015: 18:00-20:00
Hall 2 (Scottish Exhibition and Conference Centre)
Chairs:
Koichi Eguchi and Subhash Singhal
320
Advanced Impedance Spectroscopy Study of the Influence of the Crystalline Structure on the Ionic Conduction of Thin Solid-State Electrolytes
L. Fernandez Macia, D. Van Laethem (Vrije Universiteit Brussel), S. Van Steenberge, D. Depla (Ghent University), J. Deconinck, and A. Hubin (Vrije Universiteit Brussel)
321
Fabrication of Thin-Film Yttria-Stabilized Zirconia Electrolyte by Aerosol-Assisted Chemical Vapor Deposition
D. Y. Jang (Korea University), M. Kim (School of Mechanical Engineering, Korea University), H. J. Kim, K. Bae, J. W. Kim, and J. H. Shim (Korea University)
322
Single Cubic Phase Scandia-Stabilized Zirconia: Stabilization and Aging at 600oC
E. Z. Santos and R. Muccillo (Energy and Nuclear Research Institute)
323
High Temperature Strength and Elastic Properties of Doped Ceria under Various Oxygen Partial Pressures
T. Taguchi (Tohoku univetsity), S. Watanabe (Tohoku university), K. Sato, and T. Hashida (Tohoku University)
324
A Study of 8YSZ/GDC Bi-Layered Electrolyte: The Effect of 2 Mol% Fe2O3 Dopant on Sintering and Conductivity
A. S. Mehranjani (The University of Sheffield), D. J. Cumming, A. V. Call, and R. H. Elder (University of Sheffield)
325
Effect of Ceria Content of CeScSZ Powder on the Phase Stability and Electrical Conductivity of SOFC Electrolyte
S. W. Choi, K. J. Kim, M. Y. Kim, J. Lim, S. H. Yang (Korea Institute of Industrial Technology (KITECH)), Y. S. Kim (True Digital Leader(TDL)), and H. S. Kim (Korea Institute of Industrial Technology (KITECH))
326
Effect of Bismuth Oxide as Sintering Aid for Gadolinia-doped Ceria at 1050°C
V. De Marco and V. M. Sglavo (University of Trento)
328
Dominant Factors Influencing the Electrochemical Performance of Plasma-Sprayed LSGM Electrolyte
S. L. Zhang (Xi'an Jiaotong University), C. X. Li (Xi'an Jiaotong university), and C. J. Li (Xi'an Jiaotong University)
329
Grain Size Effect on Conductivity of LSGM Thin Film Electrolyte for Solid Oxide Fuel Cell
Y. Endo, A. Dempoh, T. Terai (School of Engineering, The University of Tokyo), and A. Suzuki (Nuclear Professional School, The University of Tokyo)
330
Influence of Substrate on Conductivity of Sr and Mg Doped Lanthanum Gallate Thin Film Electrolyte for Solid Oxide Fuel Cell
A. Dempoh, Y. Endo, T. Terai (School of Engineering, The University of Tokyo), and A. Suzuki (Nuclear Professional School, The University of Tokyo)
331
Synthesis of Pure La10-XSrxSi6O27-0.5x Apatites Using an Optimized Sol-Gel Process
Y. Ma (IRTES-LERMPS / Femto-ST / FC Lab), N. Fenineche (IRTES-LERMPS / FC Lab), M. Moliere (IRTES-LERMPS), O. El-Kedim (Femto-ST / FC Lab), and P. Briois (IRTES-LERMPS / FC Lab)
332
Degradation of Electrical Conductivity in Lanthanum Silicate Oxyapatite
T. Ishiyama (National Institute of AIST), H. Maruyama (National Institute of AIST, Waseda University), H. Kishimoto, K. D. Bagarinao, T. Horita, K. Yamaji (National Institute of AIST), and A. Yamazaki (Waseda University)
333
Oxygen Ion Adsorption Studies on La10Si6O27 (001) Surface with DFT Calculation for SOFC Electrolyte
Y. Ma (IRTES-LERMPS / Femto-ST / FC Lab), N. Fenineche (IRTES-LERMPS / FC Lab), and O. El-Kedim (Femto-ST / FC Lab)
334
Doped Apatites for Novel Solid Oxide Fuel Cell Applications
J. W. N. E. Ow, F. Musso (Department of Chemistry, University College London), M. Bertuzzo, M. Alfredsson (School of Physical Sciences, University of Kent), and F. Corŕ (Department of Chemistry, University College London)
335
Physical-Chemical Properties of Bi13-XMexMo5O34±δ (Me = Mg, Ca, Sr, Ba) Solid Solutions
Z. Mikhaylovskaya, E. Buyanova, M. Morozova (Ural Federal University), S. Petrova (Institute for Metallurgy, UBRAS), and I. Nikolaenko (Institute of Solid State Chemistry, UBRAS)
337
Comparative Study of BaY0.1Ce0.9O3-δ Membrane with BaY0.1Zr0.9O3-δ Protective Layers Synthesized with Spray Pyrolysis and Magnetron Sputtering Methods
M. Maide, O. Korjus (Institute of Chemistry, University of Tartu), M. Vestli (Institute of Chemistry, University of Tartu), T. Romann, and G. Nurk (Institute of Chemistry, University of Tartu)
340
Yttrium and Nickel Co-Doped BaZrO3 as a Proton-Conducting Electrolyte for Intermediate Temperature Solid Oxide Fuel Cells
S. P. Shafi, L. Bi, S. Boulfrad, and E. Traversa (King Abdullah University of Science and Technology-KAUST)
341
SOFC Development in Huazhong University of Science and Technology
J. Li (Huazhong University of Science and Technology)
342
Fuel Flexible and Efficient Semionics Single Layer Fuel Cell
R. Raza (COMSATS Institute of Information Technology)
343
3D Printing of Functional Layers for Solid Oxide Fuel Cells and Electrolysers
N. Farandos, L. Kleiminger, A. Hankin (Imperial College London), C. K. Ong (Now at: Palmer International Partnership LLP), and G. H. Kelsall (Imperial College London)
344
Direct Ceramic Inkjet Printing and Infiltration of Functional Coatings for Metal Supported SOFC
R. I. Tomov, A. Fakeeh (University of Cambridge), V. V. Krishnan (Non-Ferrous Materials Technology Development Center), K. Balasubramanian (NFTDC), V. R. Kumar (University of Cambridge), and B. A. Glowacki (Department of Physics and Energy, University of Limerick, University of Cambridge)
345
Direct Current Distribution Measurement of an Electrolyte-Supported Planar Solid Oxide Fuel Cell under the Rib and Channel by Segmented Electrodes
T. Koshiyama (Department of Hydrogen Energy Systems, Kyushu University), H. Nakajima (Department of Mechanical Engineering, Kyushu University, I2CNER, Kyushu University), T. Karimata (Department of Mechanical Engineering, Kyushu University), T. Kitahara, K. Ito (Department of Mechanical Engineering, Kyushu University, I2CNER, Kyushu University), S. Masuda, Y. Ogura, and J. Shimano (Fuel Cell Technology Group, TOHO GAS CO., LTD.)
346
Chemical and Structural Deviations at the Surfaces of Layered Oxides for Electrochemical Energy Conversion
H. Téllez, J. Druce (wpi-I2CNER, Kyushu University), J. Santiso, J. Zapata (ICN2, Institut Catala de Nanociencia i Nanotecnologia), J. A. Kilner, and T. Ishihara (wpi-I2CNER, Kyushu University)
347
Analysis of Interfacial Processes at the SOFC Electrodes by In-Situ Raman Spectroscopy
D. Agarkov, I. Burmistrov, F. Tsybrov, I. Tartakovskii, V. Kharton, S. Bredikhin, and V. Kveder (Institute of Solid State Physics RAS)
348
Performance Degradation Prediction of a Low-Temperature SOFC via Impedance Spectroscopy and CFD Modelling
C. Boigues Muńoz (UTRINN, ENEA C.R. Casaccia, Universitŕ Politecnica delle Marche), D. Pumiglia (ENEA CR Casaccia, 00123 Rome, Italy, University of Tuscia, DAFNE, 01100 Viterbo, Italy), F. Santoni (UTRINN, ENEA C.R. Casaccia), S. J. McPhail (ENEA CR Casaccia, 00123 Rome, Italy), G. Comodi (Universitŕ Politecnica delle Marche), and M. Carlini (University of Tuscia, DAFNE, 01100 Viterbo, Italy)
349
A Simple Pressurized SOFC Test Rig for Measurements of Cell Performance, Impedance, and Various Overvoltages
J. D. Liang, L. H. Hong, P. C. Wu, and S. S. Shy (National Central University)
350
Performance Degradation Analysis of Different Type SOFCs
M. Yoshikawa, T. Yamamoto, K. Asano, K. Yasumoto, and Y. Mugikura (Central Research Institute of Electric Power Industry)
351
Investigation of 2R-Cell Degradation under Thermal Cycling and RedOx Cycling Conditions by Electrochemical Impedance Spectroscopy
S. Diethelm, V. Singh (Ecole Polytechnique Fédérale de Lausanne (EPFL)), and J. Van herle (Ecole Polytechnique Fédérale de Lausanne)
352
Understanding the Electrochemical Performance of SOFC Stacks
M. Lang, C. Auer, G. Braniek, F. Wenz (German Aerospace Center (DLR)), and F. Hauler (ElringKlinger AG)
353
EIS Study on SOFC Short Stack
G. Cinti (University of Perugia) and C. Boigues Muńoz (UTRINN, ENEA C.R. Casaccia)
354
Tubular SOFC with Hollow Fiber Ceramic Support and Inner Coating
Z. Yang, T. Zhu (China University of Mining and Technology, Beijing), and M. Han (China University of Mining and Technology, Beijing, Department of Thermal Engineering, Tsinghua University)
355
Investigation of Time Stability of Sr-Doped Lanthanum Vanadium Oxide Anode and Sr-Doped Lanthanum Cobalt Oxide Cathode Based on SDC Electrolyte Using SIMS
K. Tamm (University of Tartu), P. Möller, G. Nurk (Institute of Chemistry, University of Tartu), and E. Lust (University of Tartu)
356
Microstructural Characterization of SrZrO3 Formation and the Influence to SOFC Performance
S. Kanae, Y. Toyofuku, T. Kawabata (Kyushu University), Y. Inoue (Kyushu University, Fukuoka, Japan), T. Daio, J. Matsuda (Kyushu University), J. T. Chou (Next-Generation Fuel Cell Research Center (NEXT-FC)), Y. Shiratori (Department of Hydrogen Energy Systems, Kyushu University), S. Taniguchi, and K. Sasaki (Kyushu University)
358
Suppression of Carbon Deposition on Ni Films by Redox Treatment of Ceria Substrates
F. Wang (Natl Inst of Advanced Industrial Science and Technology, CREST, JST), H. Kishimoto (Natl Inst of Advanced Industrial Science and Technology, National Institute of AIST), K. D. Bagarinao (Natl Inst of Adv Industrial Science and Technology, CREST, JST), K. Yamaji, T. Horita (Natl Inst of Advanced Industrial Science and Technology, CREST, JST), and H. Yokokawa (The University of Tokyo)
359
Theoretical Analysis of Cation Diffusion Pathway in SOFC Interlayer
C. T. Lin (Department of Hydrogen Energy Systems, Kyushu University), T. Ishimoto, and M. Koyama (INAMORI Frontier Research Center, Kyushu University, CREST, Japan Science and Technology Agency)
360
Applicability of Mid-Infrared Thermography to Study Full-Size SOFC
M. Jasinski and K. Ziewiec (Pedagogical University of Cracow, Institut of Technology)
361
Protective Coating from Manganese Cobalt Oxide Powders Obtained By High Energy Ball Milling: Materials Characterization and Cell Environment Testing
A. Masi (ENEA CR Casaccia, 00123 Rome, Italy, University of Tuscia, DAFNE, 01100 Viterbo, Italy), M. Bellusci (ENEA CR Casaccia, 00123 Rome, Italy), M. Carlini (University of Tuscia, DAFNE, 01100 Viterbo, Italy), S. J. McPhail (ENEA CR Casaccia, 00123 Rome, Italy), D. Pumiglia (University of Tuscia, DAFNE, 01100 Viterbo, Italy, ENEA CR Casaccia, 00123 Rome, Italy), P. Reale, A. Rinaldi, and F. Padella (ENEA CR Casaccia, 00123 Rome, Italy)
362
Electrochemical Model of a Triode Solid Oxide Fuel Cell
P. Caliandro (École Polytechnique Fédérale de Lausanne (EPFL)), S. Diethelm (Ecole Polytechnique Fédérale de Lausanne (EPFL)), A. Nakajo (École Polytechnique Fédérale de Lausanne (EPFL)), and J. Van herle (Ecole Polytechnique Fédérale de Lausanne)
364
Improvement of Protonic Ceramic Fuel Cells with Thin Film BCZY Electrolyte
Y. Okuyama, N. Ebihara (University of Miyazaki), K. Okuyama, and Y. Mizutani (Technical Research Institute, Toho Gas Co., Ltd.)
367
Protonic Conducting Ceramic Hollow Fiber Based on BaCe0.95Tb0.05O3-d perovskite Membrane for Hydrogen Permeation and MT-SOFC
N. Yang, X. Meng (Shandong University of Technology), S. Liu (Curtin University, Australia), Z. F. Ma (Sinopoly Battery Research Center Limited), X. Tan (Tianjin Polytechnic University), and B. Meng (Shandong University of Technology)
 
368
Intermediate Temperature - SOFCs: Nanoparticles Synthesis through Coprecipitation By Nitrate Route and By Oxide Route (Cancelled)
369
Shape Forming of Ceramic Tubes for Electrochemical Reactors by Gel-Casting Method
V. Chalkia, P. Pandis, and V. Stathopoulos (Technological Educational Institute of Sterea Ellada)
370
Design of New Power Source Based on Micro-SOFC for Mobile Electronic Devices
S. Murayama (Tohoku University), F. Iguchi (Tohoku University, Japan), M. Shimizu, S. Tanaka (Tohoku University), and H. Yugami (Tohoku University, Japan)
371
High Temperature Metal / Metal Oxide Battery
S. Yildiz, I. Loll, I. C. Vinke, L. G. J. de Haart, and R. A. Eichel (Forschungszentrum Jülich)
372
Solid Oxide Cell and Stack Testing, Safety and Quality Assurance (SOCTESQA)
C. Auer, M. Lang (German Aerospace Center (DLR)), K. Couturier (CEA - LITEN), E. R. Nielsen (Technical University of Denmark (DTU)), S. J. McPhail (ENEA CR Casaccia, 00123 Rome, Italy), G. Tsotridis (Joint Research Centre – European Commission (JRC)), Q. Fu (European Institute for Energy Research (EIFER)), and S. H. Chan (Nanyang Technological University (NTU))