Verfügbarkeit: Perovskite oxide for solid oxide fuel cells

Perovskite oxide for solid oxide fuel cells:

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Format:	Buch
Sprache:	English
Veröffentlicht:	New York, NY Springer 2009
Schriftenreihe:	Fuel cells and hydrogen energy
Schlagworte:	Solid oxide fuel cells Perovskite Festoxidbrennstoffzelle Perowskit
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 302 S. Ill., graph. Darst.
ISBN:	9780387777078

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MARC


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Datensatz im Suchindex

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adam_text	Contents 1 Structure and Properties of Perovskite Oxides .................. 1 Tatsumi Ishihara 1.1 Introduction ....................................... 1 1.2 Structure of Perovskite Oxides ......................... 2 1.3 Typical Properties of Perovskite Oxides .................. 7 1.4 Preparation of Perovskite Oxide ....................... 12 1.5 Perovskite Oxides for Solid Oxide Fuel Cells (SOFCs) ...... 15 References .............................................. 16 2 Overview of Intermediate-Temperature Solid Oxide Fuel Cells ..... 17 Harumi Yokokawa 2.1 Introduction ....................................... 17 2.2 Characteristic Features of Solid Oxide Fuel Cells .......... 18 2.2.1 Merits and Demerits of SOFCs ................... 18 2.2.2 Issues for Intermediate-Temperature SOFCs ........ 20 2.2.3 Stack Design ................................. 35 2.3 Development of Intermediate Temperature SOFC Stacks/ Systems ........................................... 36 2.3.1 Kyocera/Osaka Gas............................ 36 2.3.2 Mitsubishi Materials Corporation ................ 37 2.3.3 Micro SOFCs by TOTO........................ 38 2.4 Perspective ........................................ 38 2.4.1 Applications .................................. 38 2.4.2 Fuel Flexibility and Reliability in Relationship to Intermediate-Temperature SOFCs .............. 41 2.4.3 Hybrid Systems ............................... 41 2.5 Summary ......................................... 42 References .............................................. 42 3 Ionic Conduction in Perovskite-Type Compounds ............... 45 Hiroyasu Iwahara 3.1 Introduction ....................................... 45 3.2 Conduction Behavior of Perovskite-Type Compounds ...... 46 viii Contents 3.3 Early Studies on Ionic Conduction in Perovskite-Type Oxides ............................................ 49 3.4 Oxide Ion Conduction ............................... 52 3.5 Proton Conduction .................................. 55 3.6 Lithium Ion Conduction ............................. 59 3.7 Halide Ion Conduction ............................... 60 3.8 Silver Ion Conduction ............................... 61 References .............................................. 62 4 Oxide Ion Conductivity in Perovskite Oxide for SOFC Electrolyte ............................................. 65 Tatsumi Ishihara 4.1 Introduction ....................................... 65 4.2 Oxide Ion Conductivity in Oxide ....................... 66 4.3 Oxide Ion Conductivity in Perovskite Oxides ............. 68 4.4 LaGaO^-Based Oxide Doped with Sr and Mg (LSGM) as a New Oxide Ion Conductor ........................ 71 4.4.1 Effects of Dopant for La and Ga Site .............. 71 4.4.2 Transition Metal Doping Effects on Oxide Ion Conductivity in LSGM ......................... 74 4.5 Basic Properties of the LSGM Electrolyte System .......... 77 4.5.1 Phase Diagram of La-Sr-Ga-Mg-0 ................ 77 4.5.2 Reactivity with SOFC Component ................ 77 4.5.3 Thermal Expansion Behavior and Other Properties ... 78 4.5.4 Behavior of Minor Carrier ...................... 79 4.5.5 Diffusivity of Oxide Ion ........................ 82 4.6 Performance of a Single Cell Using LSGM Electrolyte ...... 84 4.7 Preparation of LaGaO3 Thin-Film Electrolytes for Application at Temperatures Lower Than 773 К ....... 87 4.8 Oxide Ion Conductivity in the Perovskite-Related Oxides ............................................ 89 4.9 Summary ......................................... 92 References .............................................. 92 5 Diffusivity of the Oxide Ion in Perovskite Oxides ............... 95 J. A. Kilner, A. Berenov, and J. Rossiny 5.1 Introduction ....................................... 95 . 1 Definitions of Diffusion Coefficients .............. 96 .2 The Oxygen Tracer Diffusion Coefficient ........... 96 .3 The Surface Exchange Coefficient ................. 98 .4 Defect Chemistry and Oxygen Transport ........... 99 1.5 Defect Equilibria .............................. 99 5.2 Diffusion in Mixed Electronic-Ionic Conducting Oxides (MEICs) .......................................... 102 5.2.1 Effect of А -Site Cation on Oxygen Diffusivity ....... 103 Contents 5.2.2 The Effect of B-Site Cation on Oxygen Diffusivity ___ 104 5.2.3 The Effect of А -Site Cation Vacancies on Oxygen Diffusivity ................................... 105 5.2.4 Temperature Dependence of the Oxygen Diffusion Coefficient ................................... 105 5.2.5 The Effect of Oxygen Pressure ................... 108 5.3 Oxygen Diffusion in Ionic Conducting Perovskites ......... 108 5.4 Oxygen Diffusion in Perovskite-Related Materials ......... 110 5.5 Correlations Between Oxygen Diffusion Parameters ........ 110 5.6 Conclusions ....................................... 112 References .............................................. 113 Structural Disorder, Diffusion Pathway of Mobile Oxide Ions, and Crystal Structure in Perovskite-Type Oxides and Related Materials .............................................. 117 Masatomo Yashima 6.1 Introduction ....................................... 117 6.2 High-Temperature Neutron Powder Diffractometry ........ 118 6.3 Data Processing for Elucidation of the Diffusion Paths of Mobile Oxide Ions in Ionic Conductors: Rietveld Analysis, Maximum Entropy Method (MEM), and MEM-Based Pattern Fitting (MPF) ................. 120 6.4 Diffusion Path of Oxide Ions in the Fast Oxide Ion Conductor (Lao.8Sro.2XGao.8Mgo. 15^0.05)02.8 [10]......... 121 6.4.1 Introduction .................................. 121 6.4.2 Experiments and Data Processing ................. 121 6.4.3 Results and Discussion ......................... 122 6.5 Diffusion Path of Oxide Ions in an Oxide Ion Conductor, La0.64(Tio.92Nb0.o8)02.99, with a Double Perovskite-Type Structure [11]...................................... 126 6.5.1 Introduction .................................. 126 6.5.2 Experiments and Data Processing ................. 126 6.5.3 Results and Discussion ......................... 127 6.6 Crystal Structure and Structural Disorder of Oxide Ions in Cathode Materials, Lao^Sro^CoO,^ and Lao.6Sro ^Оо.ѕРео.гОз-л, with a Cubic Perovskite-Type Structure [12, 13]................................... 131 6.6.1 Introduction .................................. 131 6.6.2 Experiments and Data Processing ................. 131 6.6.3 Results and Discussion ......................... 132 6.7 Structural Disorder and Diffusion Path of Oxide Ions in a Doped P^NiO^Based Mixed Ionic-Electronic Conductor (Pro.9Lao.i)2(Nio.74Cuo.2iGao.o5)04+¿ with a KzNiF^Type Structure [15]...................................... 137 6.7.1 Introduction .................................. 137 к Contents 6.7.2 Experiments and Data Processing................. 138 6.7.3 Results and Discussion ......................... 138 6.8 Conclusions ....................................... 141 References .............................................. 143 7 Perovskite Oxide for Cathode of SOFCs ...................... 147 Tatsuya Kawada 7.1 Introduction ....................................... 147 7.2 Properties Required for a Cathode Material .............. 148 7.2.1 Catalytic Activity .............................. 148 7.2.2 Electronic Conductivity ......................... 149 7.2.3 Oxygen Transport (Bulk or Surface) ............... 151 7.2.4 Chemical Stability and Compatibility .............. 152 7.2.5 Morphological Stability ......................... 152 7.3 General Description of Cathode Reaction and Polarization . . 153 7.3.1 Oxygen Electrode Process ....................... 153 7.3.2 Equivalent Circuit for a Cathode-Electrolyte Interface ..................................... 154 7.4 Cathode for High-Temperature SOFC: (La, Sr)MnO3 ...... 156 7.4.1 Transport Properties and Electrochemical Reaction ..................................... 156 7.4.2 Chemical and Morphological Stability of LSM ...... 158 7.5 Cathode for Intermediate-Temperature SOFC: (La, Sr)CoO3, (La, Sr)(Co, Fe)O3 ...................... 160 7.5.1 General Features of Co-Based Perovskite Cathode ... 160 7.5.2 Electrochemical Reaction of a Model Electrode: A (La,Sr)CoO3 Dense Film ...................... 161 7.5.3 Electrochemical Response of (La, Sr)CoO3 on Zirconia with and Without Cena Interlayer ...... 163 7.6 Summary ......................................... 164 References .............................................. 165 8 Perovskite Oxide Anodes for SOFCs ......................... 167 J. T. S. Irvine 8.1 Introduction ....................................... 167 8.2 Anode Materials for SOFCs .......................... 168 8.3 Perovskite Chemistry ................................ 169 8.4 Doping, Nonstoichiometry, and Conductivity ............. 170 8.5 Perovskite Anode Materials ........................... 173 8.6 A(B,B )O3 Perovskites ............................... 177 8.7 Tungsten Bronze Anode Materials ...................... 178 8.8 Anode Materials for All-Perovskite Fuel Cells ............ 179 8.9 Conclusions ....................................... 180 References .............................................. 180 Contents xj 9 Intermediate-Temperature Solid Oxide Fuel Cells Using LaGaO3............................................... 183 Tañer Akbay 9.1 Introduction ....................................... 183 9.2 Cell Development ................................... 184 9.2.1 Electrolyte ................................... 184 9.2.2 Anode ...................................... 185 9.2.3 Cathode ..................................... 188 9.3 Stack Development .................................. 190 9.4 Module Development ................................ 192 9.4.1 A 1-kW Class Single-Stack Module ............... 192 9.4.2 A 10-kW Class Multi-Stack Module ............... 195 9.5 System Development ................................ 196 9.6 Stack Modeling ..................................... 198 References .............................................. 202 10 Quick-Start-Up Type SOFC Using LaGaCb-Based New Electrolyte ............................................. 205 Akira Kawakami 10.1 Introduction ...................................... 205 10.2 Micro-Tubular Cell Development ..................... 206 10.3 Rapid Thermal Cycling ............................. 211 10.4 Fuel Flexibility .................................... 211 10.5 Stack Development ................................. 214 10.6 Summary ......................................... 216 References .............................................. 216 11 Proton Conductivity in Perovskite Oxides ..................... 217 Truls Norby 11.1 Introduction ...................................... 217 11.2 Proton Conductivity in Acceptor-Doped Perovskites ...... 219 1.2.1 Protons in Oxides ............................ 219 1.2.2 Hydration of Acceptor-Doped Perovskites ......... 219 1.2.3 Proton Diffusion ............................. 222 1.2.4 Charge Mobility and Conductivity of Protons ...... 224 1.2.5 Proton Conductivity in Acceptor-Doped Simple Perovskites, ABO3 ............................ 225 11.2.6 Effects of Defect-Acceptor Interactions ........... 228 11.2.7 Grain Boundaries ............................ 229 11.3 Proton Conduction in Inherently Oxygen-Deficient Perovskites ....................................... 230 11.3.1 Hydration of Ordered Oxygen Deficiency .......... 230 11.3.2 Nomenclature and Hydration of Disordered Intrinsic Oxygen Deficiency ..................... 231 x¡¡ Contents 11.3.3 Order-Disorder Reactions Involving Hydrated Inherently Oxygen-Deficient Perovskites (Oxyhydroxides) ............................. 232 11.4 Hydration of Undoped Perovskites .................... 233 11.5 Proton Conductivity in Selected Classes Of Non-Perovskite Oxides and Phosphates .............................. 233 11.6 Developments of Proton-Conducting SOFCs ............ 236 11.7 Conclusions ...................................... 237 References .............................................. 238 12 Proton Conduction in Cerium- and Zirconium-Based Perovskite Oxides ................................................ 243 Hiroshige Matsumoto 12.1 Introduction ...................................... 243 12.2 Conductivity ...................................... 245 12.3 Activation/Deactivation of Electrodes .................. 247 12.4 Stability .......................................... 248 12.5 Dopant .......................................... 251 12.6 Proton Hole Mixed Conduction ....................... 255 References .............................................. 258 13 Mechanisms of Proton Conduction in Perovskite-Type Oxides ................................................ 261 K. D. Kreuer 13.1 Introduction ...................................... 261 13.2 Proton Sites ...................................... 262 13.3 Mechanisms of Proton Conduction (Undoped, Cubic Perovskites) ....................................... 264 13.4 Complications (Symmetry Reduction, Doping, Mixed Site Occupancy) ................................... 268 13.5 Implications for the Development of Proton-Conducting Electrolytes for Fuel Cell Applications ................. 270 References .............................................. 271 14 Intermediate-Temperature SOFCs Using Proton-Conducting Perovskite ............................................. 273 Naoki Ito 14.1 Introduction ...................................... 273 14.2 Preparation of Fuel Cells ............................ 277 14.3 Characterization of Fuel Cells ........................ 277 14.4 Operation and Evaluation of Fuel Cells ................. 279 14.5 Conclusion ....................................... 282 References .............................................. 283 Contents xiii 15 LaCrCb-Based Perovskite for SOFC Interconnects .............. 285 Teruhisa Horită 15.1 Introduction...................................... 285 15.2 Sintering Properties and Chemical Compatibility with the Other Components .......................... 286 15.3 Electronic Conductivity ............................. 287 15.4 Defect Chemistry and Oxygen Electrochemical Leak ...... 289 15.5 Lattice Expansion During Reduction and Temperature Change .......................................... 293 15.6 Mechanical Strength ................................ 293 15.7 Summary ......................................... 294 References .............................................. 295 Index ..................................................... 297
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spelling	Perovskite oxide for solid oxide fuel cells Tatsumi Ishihara ed. New York, NY Springer 2009 XVI, 302 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fuel cells and hydrogen energy Solid oxide fuel cells Perovskite Festoxidbrennstoffzelle (DE-588)4811042-5 gnd rswk-swf Perowskit (DE-588)4173836-6 gnd rswk-swf Perowskit (DE-588)4173836-6 s Festoxidbrennstoffzelle (DE-588)4811042-5 s DE-604 Ishihara, Tatsumi Sonstige oth Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017098683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Perovskite oxide for solid oxide fuel cells Solid oxide fuel cells Perovskite Festoxidbrennstoffzelle (DE-588)4811042-5 gnd Perowskit (DE-588)4173836-6 gnd
subject_GND	(DE-588)4811042-5 (DE-588)4173836-6
title	Perovskite oxide for solid oxide fuel cells
title_auth	Perovskite oxide for solid oxide fuel cells
title_exact_search	Perovskite oxide for solid oxide fuel cells
title_full	Perovskite oxide for solid oxide fuel cells Tatsumi Ishihara ed.
title_fullStr	Perovskite oxide for solid oxide fuel cells Tatsumi Ishihara ed.
title_full_unstemmed	Perovskite oxide for solid oxide fuel cells Tatsumi Ishihara ed.
title_short	Perovskite oxide for solid oxide fuel cells
title_sort	perovskite oxide for solid oxide fuel cells
topic	Solid oxide fuel cells Perovskite Festoxidbrennstoffzelle (DE-588)4811042-5 gnd Perowskit (DE-588)4173836-6 gnd
topic_facet	Solid oxide fuel cells Perovskite Festoxidbrennstoffzelle Perowskit
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017098683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT ishiharatatsumi perovskiteoxideforsolidoxidefuelcells

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