solid oxidefuel cells 12 (sofc xii) - gbv · 2012-05-13 · solid oxidefuel cells 12(sofcxii)-...
TRANSCRIPT
Solid Oxide Fuel Cells 12 (SOFC XII) - Part 3
Editors:
S. C. SinghalPacific Northwest National LaboratoryRichland, Washington, USA
K. EguchiKyoto UniversityKyoto, Japan
Sponsoring Divisions:
IBB Hgh Temperature Materials
D Battery
IH Energy Technology
Published by
The ElectrodiemiGai Society65 South Main Street, Building D
Pennington, NJ 0853-1-2839, USA
tel 609 737 1902
fax 609 737 2743
www.electrochem.org
[^transactions
Vol. 35 NO. 1
Chapter 7
Cathode Materials, Processing and Performance
Ce02 Addition for Improving Electrochemical Behavior ofLai.xSrxMn03 1853Cathodes Sintered at High Temperature
J. Wiff, M. Suzuki, andS. Suda
High Performance LSM-ESB Cathode on ESB Electrolyte for Low to 1861Intermediate Temperature Solid Oxide Fuel Cells
K. Lee, D. Jung, H. Yoon, M. Camaratta, N. Sexson, and E. D. Wachsman
Quantification of Microstructural Change at the Interface between 1871(La,ST)Mn03+8 Cathode and YSZ Electrolyte Upon Discharge Operation
71 Matsui, Y. Mikami, H, Muroyama, andK. Eguchi
Oxygen Nonstoichiometry ofPerovskite-type Lao6Sro4Coi.yFey03.5 1881
(y=0,0.2,0.4,0.5,0.6,0.8,1) SOFC Cathode Materials
M, Kuhn, Y, Fukuda, S. Hashimoto, K. Sato, K. Yashiro, and J, Mizusaki
Oxygen Non Stoichiometry in Nanocrystalline Lao.5Sr0.s5Co03.x Thin Films 1891
S. Wang, S. Cho, H. Wang, andA. Jacobson
Electrical Conductivity and Oxygen Diffusivity of Perovskite-Type Solid 1899
Solution Lao.6Sr0.4Coi.yFeyO3-s (y=0.2,0.4,0.5,0.6,0.8)K, Yashiro, 1. Nakano, M, Kuhn, S. Hashimoto, K. Sato, andJ. Mizusaki
Microstrucrure ofSol-Gel DerivedNanoscaled Lao.eSro^CoOj.s Cathodes for 1909
Intermediate-Temperature SOFCsL. Dieterle, P. Bockstaller, D. Gerthsen, J. Hayd, E. Ivers-Tiffie,U. Guntow, and C. Kiibel
Sm(Sr)Co03Nano Cone Cathode andNi-Fe Metal Support for High Power 1919
Density and Reliability7". Ishihara, Y, Ju, T. lnagaki, and S. Ida
xxiii
Performance ofMetal-Supported Composite and Single-Phase Cathodes 1927
Basedon LSCF and SSC
J. Harris and O. Kesler
LowTemperature Preparation ofLaNii .xFexC>3 as New Cathode Material for 1935
SOFC - Advantage ofLiquid Phase Mixing Method -
E. Ntwa, C, Uematsu, E. Miyashita, T. Ohzeki, and T. Hashimoto
Doped / Undoped Ceria Buffer Layers for Improved LT SOFC Performances 1945
with Pr2Ni04+8 Cathode
J. Bassat, D. Mesguich, C. Ferchaud, Y. Zhang-Steertwinkel,F. van Berkel, C, Aymonier, J. Watkins, andJ. Grenier
Towards a Fundamental Understanding of the Oxygen Reduction Mechanism 1955
E. D, Wachsman and E. N. Armstrong
Performance Analysis and Development Strategies for Solid Oxide Fuel Cells 1965
E. Ivers-Tiffie, J. Hayd, D. Klotz, A. Leonide, F. Han, andA. Weber
Surface Cation Segregation and its Effect onthe Oxygen Reduction Reaction 1975
on Mixed ConductingElectrodes Investigated by ToF-SlMS and ICP-OES
M, Kubicek, A. Limbeck, T. FrOmling, H. Hutter, and J. Fleig
On the Thermodynamic Stability and the Kinetic Activity of SOFC Materials 1985
X. Zhou, J. Templeton, and J. Stevenson
Viable AC Two-Probe Impedance Spectroscopy Based on Spatially-Limited 1995
Contact Probe for SOFC Cathode
J. Lee, H. Ji, H. Kim, J, Son, and J. Hwang
Multi-Scale Assessment of Cr Contamination Levels in SOFC Cathode 2001
Environment
J. Schuler, A. Sohuler, Z. Wuillemin, A. Hessler-Wyser, C. Ludwig, andJ. VanHerle
Degradation ofSolid Oxide Fuel Cell Performance by Cr-Poisoning 2009
M. Kornely, A. Neumann, N. Menzler, A, Weber, and E. Ivers-Tiffie
In-situ Investigation ofthe Chromium InducedDegradation ofthe Oxygen 2019
Exchange Kinetics ofthe IT-SOFC Cathode Material Lao.6Sr0.4Co03.6E. Bucher, M. Yang, and W. Sitte
Is Chromium Poisoning of LSM Cathodes Avoidable 2027L. de Haart, A. Neumann, N. Menzler, and 1. Vinke
Impact of the Volatile Cr-Species' Attack on the Conductivity ofLa(Ni,Fe)03 2035M. K. Stodolny, B. Boukamp, and F. van Berkel
xxiv
Stability and Performance of LSCF-Infiltrated SOFC Cathodes: Effect of 2045
Nano-Particle CoarseningM. Shah, G, Hughes, P. W, Voorhees, and S. A. Barnett
Microstructural Aspects on the Performance ofLSCF Cathodes for SOFCs 2055
R. Costa, Z. Ilhan, andA. Ansar
Microstructural Effects on the Oxygen Exchange Kinetics ofLao.7Sro.3MnO.-! 2063
Thin Films
L. Yan, B. Kavaipatti, K. Chang, H. You, andP. Salvador
The Structural Disorder and Lattice Stability of (Ba,Sr)(Co,Fe)03 Complex 2077
Perovskites
M. M. Kuklja, Y. Mastrikov, S. Rashkeev, and E. Kotomin
Systematic Studies ofthe Cathode-Electrolyte Interface in SOFC Cathodes 2085
Prepared by Infiltration
R. Kttngas, J. Vohs, andR, Govts
Strain Effects on the Surface Chemistry ofLao,7Sro.3Mn03 2097
J. Han, H. Jalili, Y. Kuril, Z. Cai, and B. Yildiz
The Effects of Stress onthe Defect andElectronicProperties ofMixed Ionic 2105
Electronic Conductors
O. Comets andP. W. Voorhees
Strain Effects on Defect Chemistry in Epitaxial Perovskite Thin Films for 2113
Solid Oxide Fuel Cells
M Gadre, Y. Lee, N. Swaminathan, and D, Morgan
Mechanistic Interpretation ofthe Oxygen Reduction Kinetics of 2119
Lao.s5Cao.i5Mn03 Cathode
L. Miara, U. Pal, andS. Gopalan
Investigation of Cathode Kinetics in SOFC: Model Thin Fi lm SrTii.xFex03.5 2129
Mixed Conducting Oxides
W. Jung and H. L. Tuller
Ln(Sr,Ca)3(FeJCo)3OioIntergrowth Oxide Cathodes for Solid Oxide Fuel 2137
Cells
J. Kim, Y. Kim, K. Lee, andA. Manthiram
In situ Sinterable Cathode for Solid Oxide Fuel Cells 2147
H. Kim, Y. Park, J. Kim, and H. Jin
xxv
Aerosol Jet Printing and Microstructure of SOFC Electrolyte and Cathode
LayersA, M. Sukeshmi, P. Gardner, F. Meisenkothen, T. Jenkins, R. Miller,
M. Rottmayer, and T. L. Reitz
Effect ofGel Viscosity on theLSM Films Supported onMetallic Substrate
L. Conceicao, N. Ribeiro, and M. M. Souza
"Nanosized Ceria Modified GdBaCo205+5 Cathode for 1T-SOFC
B. Wei, Z. Lit, D. Jia, L. He, X. Huang, Y. Zhang, and W. Su
Pr Doped Ceria and Lao.6Sro.4Coo.2Feo.8O3 Composite Cathode for Solid
Oxide Fuel Cell
M. Chen andS. Cheng
Effect ofthe Strontium Content on the Electrochemical Performance ofthe
Perovskite-Type Prj.xSrxFeo.8Co0.203 Oxides
]?. Pinedo, I. Ruiz de Larramendi, D. Jimenez de Aberasturi,
J. Ruiz de Larramendi, M. Arriortua, andT. Rojo
Cooperative Investigations on Degradation ofCathode Materials in
Segment-In-Series Cells by MHI .
H. Yokokawa, H. Kishimoto, K. Yamaji, T. Horita, T. Watanabe,
T. Yamamoto, K. Eguchi, T. Matsui, K. Sasaki, Y. Shiratori, T. Kawada,
K. Sato, T. Hashida, A, Vnemoto, T. Kabata, and K, Tomida
Nanofiber Scaffold for Solid Oxide Fuel Cell Cathode
M. Zhi, N. Mariani, K. Gerdes, andN. Wu
Silver Nanomesh as a Cathode for Solid Oxide Fuel Cells
J. Shim, Y. Kim, J. Park, and F, B. Prinz
Effect ofPolarizationon PlatinumDeposition atLSM7YSZ Interfaces
K. Yamaji, T. Shimonosono, H. Kishimoto, M. E. Brito, T. Horita, D. Cho,M, Izuki, F. Wang, andH. Yokokawa
Monitoring Active and Resistive Zones of SOFC Cathodes by VoltageDriven Tracer Incorporation
J. F/eig, A. Opitz, A. Schintlmeister, M. Kubicek, and H. Mutter
Development ofPurification Methods ofRare Earth Compounds for
Preparation ofMore Cost Effective Solid Oxide Puel Cell Cathodes
R. Kanarbik, P. Mdller, I. KM, K. Tamm, andE, Lust
"Nanostructured Composite Cathodes by Suspension Plasma Spraying for
SOFC ApplicationsD. Soysal, A. Ansar, Z. Ilhan, and R. Costa
xxvi
Study of Ca3.xBixCo4O!H-8(0 < x {less than or equal to} 0.5) as Novel 2243Cathodes for IT-SOFCs
J. Zou, J. Park, H. Yoon, S. Choi, and J. Chung
Material Stability and Cation Transport of Lao.sSro^Coo^FeasOj.s in SOFC 2249Cathodic Conditions
M. Oh, A. Unemoto, K. Amezawa, and T. Kawada
Influence of S02 on the Long-Term Durability of SOFC Cathodes 2255R. Liu, S. Taniguehi, Y. Shiratori, K, Ito, andK. Sasaki
Detailed Electrochemical Analysis ofHigh-Performance "Nanoscaled 2261
Lao.6Sro.4Co03.8 Thin Film Cathodes
J. Hayd, U. Guntow, and E, Ivers-Tiffie
Electrode and Electrolyte Layers for Solid Oxide Fuel Cells Applied by 2275
Physical Vapor Deposition (PVD)£ Uhlenhruck, R, Nidilec, D. Sebold, H. Buchkremer, andD. Stdver
Comparison ofElectrochemical Performances ofElectrosprayed LSCF 2283Cathode Films for IT-SOFCs for Different Morphologies andCobaltContents
D. Marinha, L. Dessemond, and E, Djurado
Fabrication andCharacterization ofLaa.6Sro,<tCo0,2Fe0.803.6-Yttria Stabilized 2295Zirconia Composites CathodePrepared byInfiltration MethodM Han, Z. Liu, and J. Qian
Exploring Mixed Protonic/ElectronicConducting Oxides as Cathode 2305
Materials for Intermediate Temperature SOFCs Based on Proton ConductingElectrolytes
E. Fabbri, I. Markus, L. Bi, D. Pergolesi, and E, Traversa
Investigation ofthe Particle Size Change of a LafNi, Fe)03 as a Cathode 2313
Y. Yoshida, R. Chiba, T. Komatsu, M. Yokoo, K. Hayashi, H. Orui, andH. Arai
Simple Infiltrated Microstructure Polarization Loss Estimation (SIMPLE) 2321Model Predictions ofToday and Tomorrow's Nano-Composite SOFCCathodes
L, Wang and J. D. Nicholas
Nanocomposite Cathode Materials for Intermediate Temperature Solid Oxide 2331
Fuel Cells
T. Kharlamova, S. Pavlova, V. Sadykov, Y. Bespalko, T. A, Krieger,V. Pellpenko, V. Belyaev, V. Muzykantov, G, Alikina, Y. Okhlupin,N. Uvarov, andA. Smirnova
xxvii
Microstructural Aspects of Cation Interdiffusion Across the LSCF/GDC 2341
Interface
M, E. Brito, M. fzukl, K. Yamaji, H. Kishimoto, T. Shimonosono,
T. Horita, and H. Yokokawa
Influence of Cathode Thickness on the Oxygen ReductionKinetics at the 2349
Intermediate Temperature SOFC Cathodes
/. Kivi, I. Drovtar, E. Anderson, J. Aruvdli, K. Tamm, G. Nurk, P. Mailer,
M, Vestli, R. Kanarbik, and E. Lust
Detailed Microstructure Analysis and 3D Simulations of Porous Electrodes 2357
J. Joos, T. Carraro, M. Ender, B. Mger, A. Weber, and E. Ivers-Tiffie
Firing Temperature Effect on 3D Microstructure and Performance of 2369
LSM-YSZ Composite SOFC Cathodes
J. Cronin, K, Muangnapoh, 2. Patterson, K. Yakal-Kremski, and
S, A. Barnett
Characterization ofSOFC Cathodes Prepared by Pulse Laser Deposition 2379
F. Napolitano, L, Baqui, S. Cho, Q. Su, H. Wang, J. R Casanova,
D, G. Lawas, A, L. Soldati, andA. Serqvis
Preparation ofMesoporous Lao.gSr0.2Mn03 Infiltrated Coatings in Porous 2387
SOFC Cathodes Using Evaporation-Induced Self-Assembly Methods
R. Chao, J. Kitchin, K, Gerdes, E. Sabolsky, and P. Salvador
Microstructural Control ofComposite Cathode by WettingNature of 2401
Infiltrated Solutions
S. Lee, N. Miller, andA. Manivannan
-hemical, Electronic and Nanostructure Dynamics on Sr(Tii.J.Fex)03 2409
Thin-Film Surfaces at High TemperaturesY. Chen, W. Jung, Y. Kuru, H. L. Tuller, and B. Yildiz
Comparison ofX-ray Nanotomography and FIB-SEM in Quantifying the 2417
Composite LSM/YSZ SOFC Cathode Microstructure
G. Nelson, W. Harris, J, Lombardo, J. hzo, W. K. Chiu, P. Tanasmi,
M. Cantoni, J. VanHerle, C. Comninellis, J. Andrews, Y. Liu, P. Pianetta,and Y. Chu
Potential andLimitation ofApplication ofPulsed Laser Deposited 2423
Nano-Structure LSC Thin Film Cathode to YSZ Electrolyte SOFCJ. Son, D. Myung, J, Hwang, H. Lee, and J, Lee
xxviii
Mechanical Properties of Lao 6STo.4Coi.yFey03.5 under Various Temperatures 2429and Oxygen Partial Pressures
Y. Kimura, T. Kushi, S. Hashimoto, S. Watanabe, K, Amezawa,T. Kawada, Y. Fukuda, A. Unemoto, K. Sato, K. Yashiro, J. Mizusaki, and
T. Hashida
Chapter 8
Interconnection, Seal and Contact Materials
Development ofNew Alloys for SOFC Interconnects with Excellent 2437
OxidationResistance and Reduced Cr-EvaporationN. Yasuda, T. Uehara, S. Tanaka, andK. Yamamura
Low-Chromium Alloys for Solid Oxide Fuel Cell Interconnects 2447
/. Fergus and Y. Zhao
Oxide Modificationby Alloying Molybdenum to Fe-22Cr-0.5Mn for Solid 2455
Oxide Fuel Cell Interconnect
D. Yun, H. Seo, J. Jun, J. Lee, D. Kim, andK. Kim
High Temperature Oxidation of Plastically Deformed Ferritic Interconnect 2463
Steel
U, Bexell, M, Olsson, and M, W. Lundberg
Oxide Protective Coatings for Solid Oxide Fuel Cell Interconnects 2471
M, Seabaugh, S. lbanez, M, Beachy, M, Day, and L, Thrun
On Potential Application ofCoated Ferritic Stainless Steel Grades K41X and 2481
K44X in SOFC/HTE Interconnects
P. 0. Santacreu, P. Girardon, M. Zahid, J. Van Herte, A. Hessler-Wyser,J. Mougin, and V. Shemet
Electrodeposition OfCoMn Onto Stainless Steels Interconnects For Increased 2489
Lifetimes In SOFCs
T. D. Hall, H. McCrabb, J. Wu, H. Zhang, X, Liu, and J. Taylor
MultifunctionalNano-Coatings for SOFC Interconnects 2503
J. Froitzheim and J. Svensson
Synthesis and Characterization ofNanocrystalline MhCo204.5 Spinel for 2509
Protective Coating Application in SOFC
A. Das Sharma, J. Mukhopadhyay, and R. N. Basil
xxix
Characteristics ofthe Sintered Phlogopite Mica/SiOa^CVAlaOs-BaO-L^Os 2519
Glass Blends
C. Liu, K. Lin, and R. Lee
Analysis ofJoint Strength between a Metallic Interconnect and 2527
Glass-Ceramic Sealant for Use in Solid Oxide Fuel Cells
C. Lin, J. Chen, L. Chiang, and S. Wu
Characterization of Sr and Ba-Doped LaCr(>s Powders Synthesized by EDTA 2537
Method
A. Silva, A. Rocco, andM. M. Souza
Lanthanum Chromite Based Ceramic and Glass Composite Interconnects for 2547
Solid Oxide Fuel Cells
S. Lee, S. Pi, J, Lee, T. Lint, S. Park, R. Song, C. Park, and D. Shin
Synthesis and Electrical Properties ofStrontium Titanate-Based Materials for 2553
Solid Oxide Fuel Cells
B. Park, J. Lee, S. Lee, T. Lim, S. Park, R. Song, andD. Shin
Anomalous Sintering Behavior of (Sro.7Lao,3)i.xTi03+6 Perovskites 2561
(0 < x < 0.12)Synthesized by the Pechini Method
M. Mori and T. Jtoh
First 3D-Modeling ofProton-Conducting SOFC's Interconnect 2571
S, Sailler, J. Deseure, O. Doche, and Y. Bultel
High-Temperature Stress-Rupture Properties ofa Ferritic Steel for Solid 2581
Oxide Fuel Cell Interconnect
Y. Chiu and C. Lin
Oxidation Resistance and Mechanical Properties ofZMG232L and Improved 2591
Fe-Cr Ferritic Alloys for SOFC Interconnects
T. Uehara, N. Yasuda, S. Tanaka, and K. Yamamura
Characterization ofVaporization Rates on SOFC Interconnect Alloys 2601
M. Casteel, D. Lewis, A. Renko, and P. Willette
Method for Measuring Chromium Evaporation from SOFC Balance-of-Plant 2609
ComponentsO. Thomann, M. H. Pihlatie, J. Schuler, O. Himanen, and J. Kiviaho
Metallic Seals: A Possible Alternative Solution for High Temperature Steam 2617
ElectrolysisM. Reytier, L. Bruguiere, M, Lefrancois, and J. Besson
xxx
Cathode Contact Materials for Solid Oxide Fuel Cells 2625
M. Tucker, L. Cheng, andL, DeJonghe
SOFC Module Material Development at Fuel Cell Energy 2631
P. Huang and H. Ghezel-Ayagh
Chapter 9
Operation on Alternative fuels
Application ofBiofuels to Solid Oxide Fuel Cell 2641
Y, Shiratori, T. Iran, Y. Tdkahashi, andK. Sasaki
Biogas Fuel Reforming for Solid Oxide Fuel Cells 2653
D. M. Murphy, A, E. Richards, A. M. Colclasure, W. Rosensteel, and
N, Sullivan
SOFC Power Generation from Biogas: Improved System Efficiency with 2669
Combined Dry and Steam ReformingR. Dietrich, A. Lindermeir, J. Oehe, C, Spieker, C. Spitta, andM. Steffen
Biomass Conversion in a Solid Oxide Fuel Cell 2685
B. R. Alexander, R. Mitchell, andT. M, Gilr
SorbentsforBioFueledSOFCs 2693
G. Alptekin, A. Jayaraman, andM. Schaefer
Influence of Operation Conditions on Carbon Deposition in SOFCs Fuelled 2701
by Tar-Containing BiosyngasM. Liu, M. G. Millan-Agorio, P, Aravind, andN. Brandon
Transient Operation Effects ofSOFCs Driven with Tar Loaded Synthesis Gas 2713
M. Hauth, T. Kienberger, andJ. Karl
Liquid Tin-Lead Anode Solid Oxide Fuel Cell Fueled by Coal 2725
M, LaBarbera, M, Fedkin, and S. Lvov
Startup Characteristics ofPropane-Fueled Solid Oxide Fuel Cell Hot Zones 2735
Y. Du, D. Cui, K. Reifsnider, andF. Chen
An Electrochemical Model of Anode Supported Microtubular SOFCs 2745
Powered by AmmoniaJ. Y, Huo andX. Zhou
xxxi
Direct-DME SOFC for Intermediate Operation Temperature Using Proton 2755
Conductor as the ElectrolyteK, Takeuchi, R. Tai, K. Ui, K. Fujimolo, S. Ito, H. Koyanaka, and
N. Koura
Electrocatalysis andReforming in Oscillatory Reaction ofMethane on a 2761
Pt-LSC/Ceria Anode for Solid Oxide Fuel Cells
V. Medvedev, S. B, Adler, and E, M, Stuve
Design and Testing of Structured Catalysts for Internal Reforming of CH4 in 2771
Intermediate Temperature Solid Oxide Fuel Cells (IT SOFC)A. Smirnova, V. Sadykov, N. Mezentseva, R. Bunina, V. V. Pilipenko,G. Alikina, T. A. Krieger, L. N. Bobrova, O. L. Smorygo, F. van Berkel,andB. Rietveld
Towards Understanding the Hydrocarbon OxidationActivity of Oxides for 2781
Direct Hydrocarbon SOFC Anodes
S, Mcintosh and M. van den Bossche
In Situ Optical Studies ofSolid Oxide Fuel Cells Operating With Dry and 2789
Humidified Oxygenated Fuels
B. Eigenbrodt, J, Kirtley, and R. A. Walker
Effect ofHydrogen Sulfide onElectrochemical Oxidation of Syngas for 2799
SOFC ApplicationsM, Roushanafshar, J. Luo, K. Chuang, and A. Sanger
Impurity Poisoning ofSOFCs 2805
K. Sasaki, K. Haga, T. Yoshizumi, D. Minematsu, E. Yuki, R. Liu, C. Uryu,T. Oshima, S. Taniguchi, Y. Shiratori, andK Ito
Analysis of Fuel Options for SOFC-Based Power Systems in Undersea 2815Vehicles
A, Burke and L. Carreiro
Non-Thermal PlasmaReformation ofLiquid Fuels 2825
/. Hartvigsen, S. Elangovan, M. Hollist, P. Czernichowski, and L. Frost
Ceramic MicroChannel Heat Exchanger and Reactor for SOFC Applications 2835
D, M. Murphy, B. Rosen, J. Blasi, N, Sullivan, R. J. Kee, M. Hartmann,andN. E. McGuire
Studies onDirect Ethanol Use in SOFCs 2845
G. P. Corre and J. T. Irvine
Low Temperature Direct Methanol Fuel Cell with YSZ Electrolyte 2855
J. Komadina, Y. Kim, J. Park, T. M Giir, S. Kang, and F. B. Prinz
xxxii
Solid Oxide Fuel Cell Fueled by Diesel Reformate and Anaerobic Digester 2867
Gas
M. LaBarbera, M, Fedkin, X. Wang, X. Chao, C. Song, and S. Lvov
Chapter 10
Electrolysis and Other Applications
Materials for Solid OxideElectrolysis Cells 2875
S, Elangovan, J. Hartvigsen, D. Larsen, 1. Bay, and F, Zhao
Experimentally Validated Simulations ofUndoped Ceria Electrodes for H2 2883
Oxidation and H2O Electrolysis in Solid Oxide Electrochemical Cells
S. C. DeCaluwe and G. Jackson
Development of Reversible Solid Oxide Fuel Cells (RSOFCs)and Stacks 2897
N Q. Minh
Performance and Durability of High Temperature Steam Electrolysis: From 2905
the Single Cell to Short-Stack Scale
M. Petitjean, M. Reytier, A, Chatroux, L. Bruguiere, A. Mansuy,H. Sassoulas, S. dilorio, B. Morel, and J, Mougin
Long Term Testing ofShort Stacks with Solid Oxide Cells for Water 2915
ElectrolysisJ. Schefold, A. Brisse, M. Zahid, J. Ouweltjes, and J. Nielsen
Hydrogen and Power by Fuel-Assisted Electrolysis Using Solid Oxide Fuel 2929
Cells
G. Tao, B, Butler, andA. Virkar
Production ofSustainable Fuels by Means ofSolid Oxide Electrolysis 2941
J. B. Hansen, N. Christiansen, andJ. Nielsen
High-Temperature C02 and H20 Electrolysis with,an Electrolyte-Supported 2949
Solid Oxide Cell
Q. Fu, J. Dailly, A. Brisse, andM. Zahid
Hydrogen Production by High Temperature Electrolysis Using Solid Oxide 2957
Electrolyzer Cells
S. Kim, J. Yu, D. Seo, I. Han, andS. Woo
Electrochemical Analysis ofBiogas Fueled Anode Supported SOFC 2961
A. Leonide, A. Weber, andE. Ivers-Tiffie
xxxiii
A Proposed Method for High Efficiency Electrical Energy Storage Using 2969
Solid Oxide Cells
D. M. Bierschenk, J. R. Wilson, E. Miller, E. Dution, and S. A, Barnett
Development ofTubular Solid Oxide Electrolysis Stacks for Hydrogen 2979
Production
T, Kalo, K. Sato, T, Honda, A. Negishi, Y. Tanaka, A. Momma, K. Kato,
and Y. limura
Novel Micro-Tubular High Temperature Solid Oxide Electrolysis Cells 2987
C. Jin, C. Yang, and F. Chen
Model-Based Evaluation ofthe Production of Pure Oxygen through 2997
SOFC/SOEC IntegrationM, A. Taher, C. Adjiman, P. lora, P. Chiesa, and N. Brandon
Author Index 3007
xxxiv