Solid oxide fuel cells: from fundamental principles to complete systems
Gespeichert in:
| Hauptverfasser: | , |
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton ; London ; New York
CRC Press, Taylor & Francis Group
2021
|
| Ausgabe: | First edition |
| Schriftenreihe: | Electrochemical energy storage and conversion
|
| Schlagworte: | |
| Online-Zugang: | BTU01 TUM01 URL des Erstveröffentlichers |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (xii, 243 Seiten) Illustrationen, Diagramme |
| ISBN: | 9781466561175 9780429100000 |
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| 245 | 1 | 0 | |a Solid oxide fuel cells |b from fundamental principles to complete systems |c by Radenka Maric and Gholamreza Mirshekari |
| 250 | |a First edition | ||
| 264 | 1 | |a Boca Raton ; London ; New York |b CRC Press, Taylor & Francis Group |c 2021 | |
| 264 | 4 | |c ©2021 | |
| 300 | |a 1 Online-Ressource (xii, 243 Seiten) |b Illustrationen, Diagramme | ||
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| 490 | 0 | |a Electrochemical energy storage and conversion | |
| 500 | |a Description based on publisher supplied metadata and other sources | ||
| 505 | 8 | |a Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Authors -- Chapter 1 Fundamental Aspects of Solid Oxide Fuel Cells -- 1.1 Background and Principles of SOFCs -- 1.2 Design and Operation of SOFCs -- 1.3 Kinetics of Electrochemical Reactions and Thermodynamics of SOFCs -- 1.3.1 Activation Loss -- 1.3.2 Ohmic Loss -- 1.3.3 Concentration Loss -- 1.3.4 Thermodynamics of Ideal Reversible SOFC -- 1.4 Heat Transfer in SOFC -- 1.5 Mass Transfer in SOFC -- References -- Chapter 2 Materials: Electrolytes, Anodes, Cathodes, Interconnects, and Sealants -- 2.1 Overview of Solid Oxide Fuel Cell (SOFC) Materials -- 2.2 Electrolytes -- 2.2.1 Oxygen-Ion-Conducting Electrolytes -- 2.2.2 Proton-Conducting Electrolytes -- 2.2.3 Zirconia-Based Electrolytes -- 2.2.3.1 Yttria-Stabilized Zirconia -- 2.2.3.2 Scandia-Stabilized Zirconia -- 2.2.3.3 Other Dopants and Co-Dopants for Stabilized Zirconia -- 2.2.4 Ceria-Based Electrolytes -- 2.2.4.1 Gadolinia-Doped Ceria -- 2.2.4.2 Samaria-Doped Ceria -- 2.2.5 Bi[sub(2)]O[sub(3)]-Based Electrolytes -- 2.2.6 Perovskite-Structured Electrolytes -- 2.2.6.1 Perovskite-Structured Oxygen-Ion Conductors -- 2.2.6.2 Perovskite-Structured Proton Conductors -- 2.2.7 New Oxygen-Ion and Proton Conductors -- 2.2.7.1 Silicate- and Germanate-Based Apatites -- 2.2.7.2 La[sub(2)]Mo[sub(2)]O[sub(9)] (LAMOX) -- 2.2.7.3 Gallium-Based Oxides (Tetrahedrally Coordinated) -- 2.2.7.4 Niobates and Tantalates -- 2.3 Anodes -- 2.3.1 Ni-YSZ Cermet Anode -- 2.3.1.1 Influence of Materials Characteristics and Fabrication Conditions on Electronic Conductivity of Ni-YSZ Cermet Anode -- 2.3.1.2 Influence of Materials Characteristics and Fabrication Conditions on Electrochemical Performance of Ni-YSZ Cermet Anode -- 2.3.1.3 Degradation Mechanisms in Ni-YSZ Cermet Anode -- 2.3.2 Other Ni-Fluorite Cermet Anodes | |
| 505 | 8 | |a 2.3.3 Alternative Anode Materials -- 2.4 Cathodes -- 2.4.1 Manganite-Based Perovskite Cathodes -- 2.4.2 Ferrite-Based Perovskite Cathodes -- 2.4.3 Cobaltite-Based Perovskite Cathodes -- 2.4.4 Degradation Mechanisms of Conventional Lanthanum-Based Manganite, Ferrite, and Cobaltite Cathode Materials -- 2.4.4.1 Effect of CO[sub(2) on Cathode Performance -- 2 2.4.4.2 Effect of Humidity on Cathode Performance -- 2.4.4.3 Effect of Cr On Cathode Performance -- 2.4.4.4 Effect of Si On Cathode Performance -- 2.4.5 Double Perovskite Materials (AA'B[sub(2)]O[sub(5+δ]) -- 2.4.6 Ruddlesden-Popper Series (A[sub(N+1)]B[sub(N)]O[sub(3N+1)]) -- 2.4.7 Other Cathode Materials -- 2.5 Interconnects -- 2.5.1 Ceramic Interconnects -- 2.5.2 Metallic Interconnects -- 2.5.2.1 Cr-Based Alloys -- 2.5.2.2 Fe-Cr-Based Alloys -- 2.5.2.3 Ni-Cr-Based Alloys -- 2.5.3 Interconnect Protective Coatings -- 2.6 Sealants -- 2.6.1 Glass Sealants -- 2.6.2 Glass-Ceramic Sealants -- 2.6.3 Compressive Sealants -- 2.6.4 Ceramic- and Glass-Composite Sealants -- References -- Chapter 3 Processing -- 3.1 Different Cell Concepts -- 3.2 Methods of Processing Cell Components -- 3.2.1 Substrates -- 3.2.1.1 Extrusion -- 3.2.1.2 Tape Casting -- 3.2.2 Coating Methods -- 3.2.2.1 Screen Printing -- 3.2.2.2 Thin-Film Technologies -- 3.3 Sintering/Co-Firing -- References -- Chapter 4 Cell and Stack Configuration -- 4.1 General Requirements for Solid Oxide Fuel Cell (SOFC) Designs -- 4.2 Single-Cell Configuration -- 4.3 Design of SOFCs and Stacks -- 4.4 Planar Cell Design (Flat Plate Design) -- 4.5 Tubular Cell Design (Seal-Less) -- 4.6 Microtubular Cell Design -- 4.7 Integrated Planar (Segmented-Cell-In-Series) Design -- 4.8 Cone-Shaped Design -- 4.9 Flat-Tube Design -- 4.10 Honeycomb Design -- References -- Chapter 5 System Design and Optimization | |
| 505 | 8 | |a 5.1 Solid Oxide Fuel Cell (SOFC) System Designs and Performance -- 5.1.1 Atmospheric SOFC-CHP Systems -- 5.1.2 Residential, Auxiliary Power, and Other Atmospheric SOFC Systems -- 5.1.3 Pressurized SOFC/Turbine Hybrid Systems -- 5.1.4 SOFC Tri-Generation Systems -- 5.2 Optimization Strategies for SOFC -- 5.2.1 Decision Variables -- 5.2.1.1 Microstructural Parameters -- 5.2.1.2 Single-Cell Parameters -- 5.2.1.3 Integrated System Parameters -- 5.2.2 Objective Functions -- 5.2.2.1 Thermodynamic Aspects -- 5.2.2.2 Economic Aspects -- 5.2.2.3 Environmental Aspects -- 5.2.3 Constraints -- 5.2.3.1 Safe Operation -- 5.2.3.2 Specicatfiion Ranges -- References -- Chapter 6 Fuel Cell Technology Commercialization -- 6.1 Potential Role of Fuel Cells in Green Energy Economy -- 6.2 Major Barriers for Fuel Cell Technology Commercialization -- 6.2.1 Economic Challenges -- 6.2.1.1 Hydrogen Economy -- 6.2.1.2 Fuel Cell Costs -- 6.2.2 Technical Challenges: Durability and Reliability -- 6.3 Future Strategies for Fuel Cell Technology Commercialization -- 6.4 Recent SOFC Technology Status in the US, Japan, China, and Europe -- References -- Chapter 7 Research, Demonstration, and Commercialization Activities in the US, Europe, and Asia -- 7.1 Regional Fuel Cell Market Analysis -- 7.1.1 North America -- 7.1.2 Europe -- 7.1.3 Asia -- 7.2 Current State of Technology Commercialization and Long-Term Perspective -- References -- Index | |
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Datensatz im Suchindex
| _version_ | 1804182734797537280 |
|---|---|
| adam_txt | |
| any_adam_object | |
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| author | Maric, Radenka Mirshekari, Gholamreza |
| author_GND | (DE-588)1230149767 (DE-588)1230150781 |
| author_facet | Maric, Radenka Mirshekari, Gholamreza |
| author_role | aut aut |
| author_sort | Maric, Radenka |
| author_variant | r m rm g m gm |
| building | Verbundindex |
| bvnumber | BV047442183 |
| classification_rvk | VN 6050 ZP 4150 ZN 8750 |
| classification_tum | ERG 800 |
| collection | ZDB-30-PQE ZDB-7-TFC |
| contents | Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Authors -- Chapter 1 Fundamental Aspects of Solid Oxide Fuel Cells -- 1.1 Background and Principles of SOFCs -- 1.2 Design and Operation of SOFCs -- 1.3 Kinetics of Electrochemical Reactions and Thermodynamics of SOFCs -- 1.3.1 Activation Loss -- 1.3.2 Ohmic Loss -- 1.3.3 Concentration Loss -- 1.3.4 Thermodynamics of Ideal Reversible SOFC -- 1.4 Heat Transfer in SOFC -- 1.5 Mass Transfer in SOFC -- References -- Chapter 2 Materials: Electrolytes, Anodes, Cathodes, Interconnects, and Sealants -- 2.1 Overview of Solid Oxide Fuel Cell (SOFC) Materials -- 2.2 Electrolytes -- 2.2.1 Oxygen-Ion-Conducting Electrolytes -- 2.2.2 Proton-Conducting Electrolytes -- 2.2.3 Zirconia-Based Electrolytes -- 2.2.3.1 Yttria-Stabilized Zirconia -- 2.2.3.2 Scandia-Stabilized Zirconia -- 2.2.3.3 Other Dopants and Co-Dopants for Stabilized Zirconia -- 2.2.4 Ceria-Based Electrolytes -- 2.2.4.1 Gadolinia-Doped Ceria -- 2.2.4.2 Samaria-Doped Ceria -- 2.2.5 Bi[sub(2)]O[sub(3)]-Based Electrolytes -- 2.2.6 Perovskite-Structured Electrolytes -- 2.2.6.1 Perovskite-Structured Oxygen-Ion Conductors -- 2.2.6.2 Perovskite-Structured Proton Conductors -- 2.2.7 New Oxygen-Ion and Proton Conductors -- 2.2.7.1 Silicate- and Germanate-Based Apatites -- 2.2.7.2 La[sub(2)]Mo[sub(2)]O[sub(9)] (LAMOX) -- 2.2.7.3 Gallium-Based Oxides (Tetrahedrally Coordinated) -- 2.2.7.4 Niobates and Tantalates -- 2.3 Anodes -- 2.3.1 Ni-YSZ Cermet Anode -- 2.3.1.1 Influence of Materials Characteristics and Fabrication Conditions on Electronic Conductivity of Ni-YSZ Cermet Anode -- 2.3.1.2 Influence of Materials Characteristics and Fabrication Conditions on Electrochemical Performance of Ni-YSZ Cermet Anode -- 2.3.1.3 Degradation Mechanisms in Ni-YSZ Cermet Anode -- 2.3.2 Other Ni-Fluorite Cermet Anodes 2.3.3 Alternative Anode Materials -- 2.4 Cathodes -- 2.4.1 Manganite-Based Perovskite Cathodes -- 2.4.2 Ferrite-Based Perovskite Cathodes -- 2.4.3 Cobaltite-Based Perovskite Cathodes -- 2.4.4 Degradation Mechanisms of Conventional Lanthanum-Based Manganite, Ferrite, and Cobaltite Cathode Materials -- 2.4.4.1 Effect of CO[sub(2) on Cathode Performance -- 2 2.4.4.2 Effect of Humidity on Cathode Performance -- 2.4.4.3 Effect of Cr On Cathode Performance -- 2.4.4.4 Effect of Si On Cathode Performance -- 2.4.5 Double Perovskite Materials (AA'B[sub(2)]O[sub(5+δ]) -- 2.4.6 Ruddlesden-Popper Series (A[sub(N+1)]B[sub(N)]O[sub(3N+1)]) -- 2.4.7 Other Cathode Materials -- 2.5 Interconnects -- 2.5.1 Ceramic Interconnects -- 2.5.2 Metallic Interconnects -- 2.5.2.1 Cr-Based Alloys -- 2.5.2.2 Fe-Cr-Based Alloys -- 2.5.2.3 Ni-Cr-Based Alloys -- 2.5.3 Interconnect Protective Coatings -- 2.6 Sealants -- 2.6.1 Glass Sealants -- 2.6.2 Glass-Ceramic Sealants -- 2.6.3 Compressive Sealants -- 2.6.4 Ceramic- and Glass-Composite Sealants -- References -- Chapter 3 Processing -- 3.1 Different Cell Concepts -- 3.2 Methods of Processing Cell Components -- 3.2.1 Substrates -- 3.2.1.1 Extrusion -- 3.2.1.2 Tape Casting -- 3.2.2 Coating Methods -- 3.2.2.1 Screen Printing -- 3.2.2.2 Thin-Film Technologies -- 3.3 Sintering/Co-Firing -- References -- Chapter 4 Cell and Stack Configuration -- 4.1 General Requirements for Solid Oxide Fuel Cell (SOFC) Designs -- 4.2 Single-Cell Configuration -- 4.3 Design of SOFCs and Stacks -- 4.4 Planar Cell Design (Flat Plate Design) -- 4.5 Tubular Cell Design (Seal-Less) -- 4.6 Microtubular Cell Design -- 4.7 Integrated Planar (Segmented-Cell-In-Series) Design -- 4.8 Cone-Shaped Design -- 4.9 Flat-Tube Design -- 4.10 Honeycomb Design -- References -- Chapter 5 System Design and Optimization 5.1 Solid Oxide Fuel Cell (SOFC) System Designs and Performance -- 5.1.1 Atmospheric SOFC-CHP Systems -- 5.1.2 Residential, Auxiliary Power, and Other Atmospheric SOFC Systems -- 5.1.3 Pressurized SOFC/Turbine Hybrid Systems -- 5.1.4 SOFC Tri-Generation Systems -- 5.2 Optimization Strategies for SOFC -- 5.2.1 Decision Variables -- 5.2.1.1 Microstructural Parameters -- 5.2.1.2 Single-Cell Parameters -- 5.2.1.3 Integrated System Parameters -- 5.2.2 Objective Functions -- 5.2.2.1 Thermodynamic Aspects -- 5.2.2.2 Economic Aspects -- 5.2.2.3 Environmental Aspects -- 5.2.3 Constraints -- 5.2.3.1 Safe Operation -- 5.2.3.2 Specicatfiion Ranges -- References -- Chapter 6 Fuel Cell Technology Commercialization -- 6.1 Potential Role of Fuel Cells in Green Energy Economy -- 6.2 Major Barriers for Fuel Cell Technology Commercialization -- 6.2.1 Economic Challenges -- 6.2.1.1 Hydrogen Economy -- 6.2.1.2 Fuel Cell Costs -- 6.2.2 Technical Challenges: Durability and Reliability -- 6.3 Future Strategies for Fuel Cell Technology Commercialization -- 6.4 Recent SOFC Technology Status in the US, Japan, China, and Europe -- References -- Chapter 7 Research, Demonstration, and Commercialization Activities in the US, Europe, and Asia -- 7.1 Regional Fuel Cell Market Analysis -- 7.1.1 North America -- 7.1.2 Europe -- 7.1.3 Asia -- 7.2 Current State of Technology Commercialization and Long-Term Perspective -- References -- Index |
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| dewey-full | 621.31242899999995 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 621 - Applied physics |
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| dewey-search | 621.31242899999995 |
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| discipline | Chemie / Pharmazie Energietechnik, Energiewirtschaft Elektrotechnik / Elektronik / Nachrichtentechnik Energietechnik |
| discipline_str_mv | Chemie / Pharmazie Energietechnik, Energiewirtschaft Elektrotechnik / Elektronik / Nachrichtentechnik Energietechnik |
| edition | First edition |
| format | Electronic eBook |
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tag="500" ind1=" " ind2=" "><subfield code="a">Description based on publisher supplied metadata and other sources</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Authors -- Chapter 1 Fundamental Aspects of Solid Oxide Fuel Cells -- 1.1 Background and Principles of SOFCs -- 1.2 Design and Operation of SOFCs -- 1.3 Kinetics of Electrochemical Reactions and Thermodynamics of SOFCs -- 1.3.1 Activation Loss -- 1.3.2 Ohmic Loss -- 1.3.3 Concentration Loss -- 1.3.4 Thermodynamics of Ideal Reversible SOFC -- 1.4 Heat Transfer in SOFC -- 1.5 Mass Transfer in SOFC -- References -- Chapter 2 Materials: Electrolytes, Anodes, Cathodes, Interconnects, and Sealants -- 2.1 Overview of Solid Oxide Fuel Cell (SOFC) Materials -- 2.2 Electrolytes -- 2.2.1 Oxygen-Ion-Conducting Electrolytes -- 2.2.2 Proton-Conducting Electrolytes -- 2.2.3 Zirconia-Based Electrolytes -- 2.2.3.1 Yttria-Stabilized Zirconia -- 2.2.3.2 Scandia-Stabilized Zirconia -- 2.2.3.3 Other Dopants and Co-Dopants for Stabilized Zirconia -- 2.2.4 Ceria-Based Electrolytes -- 2.2.4.1 Gadolinia-Doped Ceria -- 2.2.4.2 Samaria-Doped Ceria -- 2.2.5 Bi[sub(2)]O[sub(3)]-Based Electrolytes -- 2.2.6 Perovskite-Structured Electrolytes -- 2.2.6.1 Perovskite-Structured Oxygen-Ion Conductors -- 2.2.6.2 Perovskite-Structured Proton Conductors -- 2.2.7 New Oxygen-Ion and Proton Conductors -- 2.2.7.1 Silicate- and Germanate-Based Apatites -- 2.2.7.2 La[sub(2)]Mo[sub(2)]O[sub(9)] (LAMOX) -- 2.2.7.3 Gallium-Based Oxides (Tetrahedrally Coordinated) -- 2.2.7.4 Niobates and Tantalates -- 2.3 Anodes -- 2.3.1 Ni-YSZ Cermet Anode -- 2.3.1.1 Influence of Materials Characteristics and Fabrication Conditions on Electronic Conductivity of Ni-YSZ Cermet Anode -- 2.3.1.2 Influence of Materials Characteristics and Fabrication Conditions on Electrochemical Performance of Ni-YSZ Cermet Anode -- 2.3.1.3 Degradation Mechanisms in Ni-YSZ Cermet Anode -- 2.3.2 Other Ni-Fluorite Cermet Anodes</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">2.3.3 Alternative Anode Materials -- 2.4 Cathodes -- 2.4.1 Manganite-Based Perovskite Cathodes -- 2.4.2 Ferrite-Based Perovskite Cathodes -- 2.4.3 Cobaltite-Based Perovskite Cathodes -- 2.4.4 Degradation Mechanisms of Conventional Lanthanum-Based Manganite, Ferrite, and Cobaltite Cathode Materials -- 2.4.4.1 Effect of CO[sub(2) on Cathode Performance -- 2 2.4.4.2 Effect of Humidity on Cathode Performance -- 2.4.4.3 Effect of Cr On Cathode Performance -- 2.4.4.4 Effect of Si On Cathode Performance -- 2.4.5 Double Perovskite Materials (AA'B[sub(2)]O[sub(5+δ]) -- 2.4.6 Ruddlesden-Popper Series (A[sub(N+1)]B[sub(N)]O[sub(3N+1)]) -- 2.4.7 Other Cathode Materials -- 2.5 Interconnects -- 2.5.1 Ceramic Interconnects -- 2.5.2 Metallic Interconnects -- 2.5.2.1 Cr-Based Alloys -- 2.5.2.2 Fe-Cr-Based Alloys -- 2.5.2.3 Ni-Cr-Based Alloys -- 2.5.3 Interconnect Protective Coatings -- 2.6 Sealants -- 2.6.1 Glass Sealants -- 2.6.2 Glass-Ceramic Sealants -- 2.6.3 Compressive Sealants -- 2.6.4 Ceramic- and Glass-Composite Sealants -- References -- Chapter 3 Processing -- 3.1 Different Cell Concepts -- 3.2 Methods of Processing Cell Components -- 3.2.1 Substrates -- 3.2.1.1 Extrusion -- 3.2.1.2 Tape Casting -- 3.2.2 Coating Methods -- 3.2.2.1 Screen Printing -- 3.2.2.2 Thin-Film Technologies -- 3.3 Sintering/Co-Firing -- References -- Chapter 4 Cell and Stack Configuration -- 4.1 General Requirements for Solid Oxide Fuel Cell (SOFC) Designs -- 4.2 Single-Cell Configuration -- 4.3 Design of SOFCs and Stacks -- 4.4 Planar Cell Design (Flat Plate Design) -- 4.5 Tubular Cell Design (Seal-Less) -- 4.6 Microtubular Cell Design -- 4.7 Integrated Planar (Segmented-Cell-In-Series) Design -- 4.8 Cone-Shaped Design -- 4.9 Flat-Tube Design -- 4.10 Honeycomb Design -- References -- Chapter 5 System Design and Optimization</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">5.1 Solid Oxide Fuel Cell (SOFC) System Designs and Performance -- 5.1.1 Atmospheric SOFC-CHP Systems -- 5.1.2 Residential, Auxiliary Power, and Other Atmospheric SOFC Systems -- 5.1.3 Pressurized SOFC/Turbine Hybrid Systems -- 5.1.4 SOFC Tri-Generation Systems -- 5.2 Optimization Strategies for SOFC -- 5.2.1 Decision Variables -- 5.2.1.1 Microstructural Parameters -- 5.2.1.2 Single-Cell Parameters -- 5.2.1.3 Integrated System Parameters -- 5.2.2 Objective Functions -- 5.2.2.1 Thermodynamic Aspects -- 5.2.2.2 Economic Aspects -- 5.2.2.3 Environmental Aspects -- 5.2.3 Constraints -- 5.2.3.1 Safe Operation -- 5.2.3.2 Specicatfiion Ranges -- References -- Chapter 6 Fuel Cell Technology Commercialization -- 6.1 Potential Role of Fuel Cells in Green Energy Economy -- 6.2 Major Barriers for Fuel Cell Technology Commercialization -- 6.2.1 Economic Challenges -- 6.2.1.1 Hydrogen Economy -- 6.2.1.2 Fuel Cell Costs -- 6.2.2 Technical Challenges: Durability and Reliability -- 6.3 Future Strategies for Fuel Cell Technology Commercialization -- 6.4 Recent SOFC Technology Status in the US, Japan, China, and Europe -- References -- Chapter 7 Research, Demonstration, and Commercialization Activities in the US, Europe, and Asia -- 7.1 Regional Fuel Cell Market Analysis -- 7.1.1 North America -- 7.1.2 Europe -- 7.1.3 Asia -- 7.2 Current State of Technology Commercialization and Long-Term Perspective -- References -- Index</subfield></datafield><datafield tag="650" ind1=" " ind2="4"><subfield code="a">Solid oxide fuel cells</subfield></datafield><datafield tag="700" ind1="1" ind2=" "><subfield code="a">Mirshekari, Gholamreza</subfield><subfield code="e">Verfasser</subfield><subfield code="0">(DE-588)1230150781</subfield><subfield code="4">aut</subfield></datafield><datafield tag="776" ind1="0" ind2="8"><subfield code="i">Erscheint auch als</subfield><subfield code="a">Maric, 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| id | DE-604.BV047442183 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T18:01:24Z |
| indexdate | 2024-07-10T09:12:16Z |
| institution | BVB |
| isbn | 9781466561175 9780429100000 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032844335 |
| oclc_num | 1204133916 |
| open_access_boolean | |
| owner | DE-91 DE-BY-TUM DE-634 |
| owner_facet | DE-91 DE-BY-TUM DE-634 |
| physical | 1 Online-Ressource (xii, 243 Seiten) Illustrationen, Diagramme |
| psigel | ZDB-30-PQE ZDB-7-TFC ZDB-7-TFC BTU_Kauf ZDB-30-PQE TUM_PDA_PQE_Kauf |
| publishDate | 2021 |
| publishDateSearch | 2021 |
| publishDateSort | 2021 |
| publisher | CRC Press, Taylor & Francis Group |
| record_format | marc |
| series2 | Electrochemical energy storage and conversion |
| spelling | Maric, Radenka Verfasser (DE-588)1230149767 aut Solid oxide fuel cells from fundamental principles to complete systems by Radenka Maric and Gholamreza Mirshekari First edition Boca Raton ; London ; New York CRC Press, Taylor & Francis Group 2021 ©2021 1 Online-Ressource (xii, 243 Seiten) Illustrationen, Diagramme txt rdacontent c rdamedia cr rdacarrier Electrochemical energy storage and conversion Description based on publisher supplied metadata and other sources Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Authors -- Chapter 1 Fundamental Aspects of Solid Oxide Fuel Cells -- 1.1 Background and Principles of SOFCs -- 1.2 Design and Operation of SOFCs -- 1.3 Kinetics of Electrochemical Reactions and Thermodynamics of SOFCs -- 1.3.1 Activation Loss -- 1.3.2 Ohmic Loss -- 1.3.3 Concentration Loss -- 1.3.4 Thermodynamics of Ideal Reversible SOFC -- 1.4 Heat Transfer in SOFC -- 1.5 Mass Transfer in SOFC -- References -- Chapter 2 Materials: Electrolytes, Anodes, Cathodes, Interconnects, and Sealants -- 2.1 Overview of Solid Oxide Fuel Cell (SOFC) Materials -- 2.2 Electrolytes -- 2.2.1 Oxygen-Ion-Conducting Electrolytes -- 2.2.2 Proton-Conducting Electrolytes -- 2.2.3 Zirconia-Based Electrolytes -- 2.2.3.1 Yttria-Stabilized Zirconia -- 2.2.3.2 Scandia-Stabilized Zirconia -- 2.2.3.3 Other Dopants and Co-Dopants for Stabilized Zirconia -- 2.2.4 Ceria-Based Electrolytes -- 2.2.4.1 Gadolinia-Doped Ceria -- 2.2.4.2 Samaria-Doped Ceria -- 2.2.5 Bi[sub(2)]O[sub(3)]-Based Electrolytes -- 2.2.6 Perovskite-Structured Electrolytes -- 2.2.6.1 Perovskite-Structured Oxygen-Ion Conductors -- 2.2.6.2 Perovskite-Structured Proton Conductors -- 2.2.7 New Oxygen-Ion and Proton Conductors -- 2.2.7.1 Silicate- and Germanate-Based Apatites -- 2.2.7.2 La[sub(2)]Mo[sub(2)]O[sub(9)] (LAMOX) -- 2.2.7.3 Gallium-Based Oxides (Tetrahedrally Coordinated) -- 2.2.7.4 Niobates and Tantalates -- 2.3 Anodes -- 2.3.1 Ni-YSZ Cermet Anode -- 2.3.1.1 Influence of Materials Characteristics and Fabrication Conditions on Electronic Conductivity of Ni-YSZ Cermet Anode -- 2.3.1.2 Influence of Materials Characteristics and Fabrication Conditions on Electrochemical Performance of Ni-YSZ Cermet Anode -- 2.3.1.3 Degradation Mechanisms in Ni-YSZ Cermet Anode -- 2.3.2 Other Ni-Fluorite Cermet Anodes 2.3.3 Alternative Anode Materials -- 2.4 Cathodes -- 2.4.1 Manganite-Based Perovskite Cathodes -- 2.4.2 Ferrite-Based Perovskite Cathodes -- 2.4.3 Cobaltite-Based Perovskite Cathodes -- 2.4.4 Degradation Mechanisms of Conventional Lanthanum-Based Manganite, Ferrite, and Cobaltite Cathode Materials -- 2.4.4.1 Effect of CO[sub(2) on Cathode Performance -- 2 2.4.4.2 Effect of Humidity on Cathode Performance -- 2.4.4.3 Effect of Cr On Cathode Performance -- 2.4.4.4 Effect of Si On Cathode Performance -- 2.4.5 Double Perovskite Materials (AA'B[sub(2)]O[sub(5+δ]) -- 2.4.6 Ruddlesden-Popper Series (A[sub(N+1)]B[sub(N)]O[sub(3N+1)]) -- 2.4.7 Other Cathode Materials -- 2.5 Interconnects -- 2.5.1 Ceramic Interconnects -- 2.5.2 Metallic Interconnects -- 2.5.2.1 Cr-Based Alloys -- 2.5.2.2 Fe-Cr-Based Alloys -- 2.5.2.3 Ni-Cr-Based Alloys -- 2.5.3 Interconnect Protective Coatings -- 2.6 Sealants -- 2.6.1 Glass Sealants -- 2.6.2 Glass-Ceramic Sealants -- 2.6.3 Compressive Sealants -- 2.6.4 Ceramic- and Glass-Composite Sealants -- References -- Chapter 3 Processing -- 3.1 Different Cell Concepts -- 3.2 Methods of Processing Cell Components -- 3.2.1 Substrates -- 3.2.1.1 Extrusion -- 3.2.1.2 Tape Casting -- 3.2.2 Coating Methods -- 3.2.2.1 Screen Printing -- 3.2.2.2 Thin-Film Technologies -- 3.3 Sintering/Co-Firing -- References -- Chapter 4 Cell and Stack Configuration -- 4.1 General Requirements for Solid Oxide Fuel Cell (SOFC) Designs -- 4.2 Single-Cell Configuration -- 4.3 Design of SOFCs and Stacks -- 4.4 Planar Cell Design (Flat Plate Design) -- 4.5 Tubular Cell Design (Seal-Less) -- 4.6 Microtubular Cell Design -- 4.7 Integrated Planar (Segmented-Cell-In-Series) Design -- 4.8 Cone-Shaped Design -- 4.9 Flat-Tube Design -- 4.10 Honeycomb Design -- References -- Chapter 5 System Design and Optimization 5.1 Solid Oxide Fuel Cell (SOFC) System Designs and Performance -- 5.1.1 Atmospheric SOFC-CHP Systems -- 5.1.2 Residential, Auxiliary Power, and Other Atmospheric SOFC Systems -- 5.1.3 Pressurized SOFC/Turbine Hybrid Systems -- 5.1.4 SOFC Tri-Generation Systems -- 5.2 Optimization Strategies for SOFC -- 5.2.1 Decision Variables -- 5.2.1.1 Microstructural Parameters -- 5.2.1.2 Single-Cell Parameters -- 5.2.1.3 Integrated System Parameters -- 5.2.2 Objective Functions -- 5.2.2.1 Thermodynamic Aspects -- 5.2.2.2 Economic Aspects -- 5.2.2.3 Environmental Aspects -- 5.2.3 Constraints -- 5.2.3.1 Safe Operation -- 5.2.3.2 Specicatfiion Ranges -- References -- Chapter 6 Fuel Cell Technology Commercialization -- 6.1 Potential Role of Fuel Cells in Green Energy Economy -- 6.2 Major Barriers for Fuel Cell Technology Commercialization -- 6.2.1 Economic Challenges -- 6.2.1.1 Hydrogen Economy -- 6.2.1.2 Fuel Cell Costs -- 6.2.2 Technical Challenges: Durability and Reliability -- 6.3 Future Strategies for Fuel Cell Technology Commercialization -- 6.4 Recent SOFC Technology Status in the US, Japan, China, and Europe -- References -- Chapter 7 Research, Demonstration, and Commercialization Activities in the US, Europe, and Asia -- 7.1 Regional Fuel Cell Market Analysis -- 7.1.1 North America -- 7.1.2 Europe -- 7.1.3 Asia -- 7.2 Current State of Technology Commercialization and Long-Term Perspective -- References -- Index Solid oxide fuel cells Mirshekari, Gholamreza Verfasser (DE-588)1230150781 aut Erscheint auch als Maric, Radenka Solid Oxide Fuel Cells Milton : Taylor & Francis Group,c2018 Druck-Ausgabe, Paperback 978-0-367-63979-2 Erscheint auch als Druck-Ausgabe, Hardcover 978-1-4665-6116-8 https://www.taylorfrancis.com/books/mono/10.1201/9780429100000 Verlag URL des Erstveröffentlichers |
| spellingShingle | Maric, Radenka Mirshekari, Gholamreza Solid oxide fuel cells from fundamental principles to complete systems Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Authors -- Chapter 1 Fundamental Aspects of Solid Oxide Fuel Cells -- 1.1 Background and Principles of SOFCs -- 1.2 Design and Operation of SOFCs -- 1.3 Kinetics of Electrochemical Reactions and Thermodynamics of SOFCs -- 1.3.1 Activation Loss -- 1.3.2 Ohmic Loss -- 1.3.3 Concentration Loss -- 1.3.4 Thermodynamics of Ideal Reversible SOFC -- 1.4 Heat Transfer in SOFC -- 1.5 Mass Transfer in SOFC -- References -- Chapter 2 Materials: Electrolytes, Anodes, Cathodes, Interconnects, and Sealants -- 2.1 Overview of Solid Oxide Fuel Cell (SOFC) Materials -- 2.2 Electrolytes -- 2.2.1 Oxygen-Ion-Conducting Electrolytes -- 2.2.2 Proton-Conducting Electrolytes -- 2.2.3 Zirconia-Based Electrolytes -- 2.2.3.1 Yttria-Stabilized Zirconia -- 2.2.3.2 Scandia-Stabilized Zirconia -- 2.2.3.3 Other Dopants and Co-Dopants for Stabilized Zirconia -- 2.2.4 Ceria-Based Electrolytes -- 2.2.4.1 Gadolinia-Doped Ceria -- 2.2.4.2 Samaria-Doped Ceria -- 2.2.5 Bi[sub(2)]O[sub(3)]-Based Electrolytes -- 2.2.6 Perovskite-Structured Electrolytes -- 2.2.6.1 Perovskite-Structured Oxygen-Ion Conductors -- 2.2.6.2 Perovskite-Structured Proton Conductors -- 2.2.7 New Oxygen-Ion and Proton Conductors -- 2.2.7.1 Silicate- and Germanate-Based Apatites -- 2.2.7.2 La[sub(2)]Mo[sub(2)]O[sub(9)] (LAMOX) -- 2.2.7.3 Gallium-Based Oxides (Tetrahedrally Coordinated) -- 2.2.7.4 Niobates and Tantalates -- 2.3 Anodes -- 2.3.1 Ni-YSZ Cermet Anode -- 2.3.1.1 Influence of Materials Characteristics and Fabrication Conditions on Electronic Conductivity of Ni-YSZ Cermet Anode -- 2.3.1.2 Influence of Materials Characteristics and Fabrication Conditions on Electrochemical Performance of Ni-YSZ Cermet Anode -- 2.3.1.3 Degradation Mechanisms in Ni-YSZ Cermet Anode -- 2.3.2 Other Ni-Fluorite Cermet Anodes 2.3.3 Alternative Anode Materials -- 2.4 Cathodes -- 2.4.1 Manganite-Based Perovskite Cathodes -- 2.4.2 Ferrite-Based Perovskite Cathodes -- 2.4.3 Cobaltite-Based Perovskite Cathodes -- 2.4.4 Degradation Mechanisms of Conventional Lanthanum-Based Manganite, Ferrite, and Cobaltite Cathode Materials -- 2.4.4.1 Effect of CO[sub(2) on Cathode Performance -- 2 2.4.4.2 Effect of Humidity on Cathode Performance -- 2.4.4.3 Effect of Cr On Cathode Performance -- 2.4.4.4 Effect of Si On Cathode Performance -- 2.4.5 Double Perovskite Materials (AA'B[sub(2)]O[sub(5+δ]) -- 2.4.6 Ruddlesden-Popper Series (A[sub(N+1)]B[sub(N)]O[sub(3N+1)]) -- 2.4.7 Other Cathode Materials -- 2.5 Interconnects -- 2.5.1 Ceramic Interconnects -- 2.5.2 Metallic Interconnects -- 2.5.2.1 Cr-Based Alloys -- 2.5.2.2 Fe-Cr-Based Alloys -- 2.5.2.3 Ni-Cr-Based Alloys -- 2.5.3 Interconnect Protective Coatings -- 2.6 Sealants -- 2.6.1 Glass Sealants -- 2.6.2 Glass-Ceramic Sealants -- 2.6.3 Compressive Sealants -- 2.6.4 Ceramic- and Glass-Composite Sealants -- References -- Chapter 3 Processing -- 3.1 Different Cell Concepts -- 3.2 Methods of Processing Cell Components -- 3.2.1 Substrates -- 3.2.1.1 Extrusion -- 3.2.1.2 Tape Casting -- 3.2.2 Coating Methods -- 3.2.2.1 Screen Printing -- 3.2.2.2 Thin-Film Technologies -- 3.3 Sintering/Co-Firing -- References -- Chapter 4 Cell and Stack Configuration -- 4.1 General Requirements for Solid Oxide Fuel Cell (SOFC) Designs -- 4.2 Single-Cell Configuration -- 4.3 Design of SOFCs and Stacks -- 4.4 Planar Cell Design (Flat Plate Design) -- 4.5 Tubular Cell Design (Seal-Less) -- 4.6 Microtubular Cell Design -- 4.7 Integrated Planar (Segmented-Cell-In-Series) Design -- 4.8 Cone-Shaped Design -- 4.9 Flat-Tube Design -- 4.10 Honeycomb Design -- References -- Chapter 5 System Design and Optimization 5.1 Solid Oxide Fuel Cell (SOFC) System Designs and Performance -- 5.1.1 Atmospheric SOFC-CHP Systems -- 5.1.2 Residential, Auxiliary Power, and Other Atmospheric SOFC Systems -- 5.1.3 Pressurized SOFC/Turbine Hybrid Systems -- 5.1.4 SOFC Tri-Generation Systems -- 5.2 Optimization Strategies for SOFC -- 5.2.1 Decision Variables -- 5.2.1.1 Microstructural Parameters -- 5.2.1.2 Single-Cell Parameters -- 5.2.1.3 Integrated System Parameters -- 5.2.2 Objective Functions -- 5.2.2.1 Thermodynamic Aspects -- 5.2.2.2 Economic Aspects -- 5.2.2.3 Environmental Aspects -- 5.2.3 Constraints -- 5.2.3.1 Safe Operation -- 5.2.3.2 Specicatfiion Ranges -- References -- Chapter 6 Fuel Cell Technology Commercialization -- 6.1 Potential Role of Fuel Cells in Green Energy Economy -- 6.2 Major Barriers for Fuel Cell Technology Commercialization -- 6.2.1 Economic Challenges -- 6.2.1.1 Hydrogen Economy -- 6.2.1.2 Fuel Cell Costs -- 6.2.2 Technical Challenges: Durability and Reliability -- 6.3 Future Strategies for Fuel Cell Technology Commercialization -- 6.4 Recent SOFC Technology Status in the US, Japan, China, and Europe -- References -- Chapter 7 Research, Demonstration, and Commercialization Activities in the US, Europe, and Asia -- 7.1 Regional Fuel Cell Market Analysis -- 7.1.1 North America -- 7.1.2 Europe -- 7.1.3 Asia -- 7.2 Current State of Technology Commercialization and Long-Term Perspective -- References -- Index Solid oxide fuel cells |
| title | Solid oxide fuel cells from fundamental principles to complete systems |
| title_auth | Solid oxide fuel cells from fundamental principles to complete systems |
| title_exact_search | Solid oxide fuel cells from fundamental principles to complete systems |
| title_exact_search_txtP | Solid oxide fuel cells from fundamental principles to complete systems |
| title_full | Solid oxide fuel cells from fundamental principles to complete systems by Radenka Maric and Gholamreza Mirshekari |
| title_fullStr | Solid oxide fuel cells from fundamental principles to complete systems by Radenka Maric and Gholamreza Mirshekari |
| title_full_unstemmed | Solid oxide fuel cells from fundamental principles to complete systems by Radenka Maric and Gholamreza Mirshekari |
| title_short | Solid oxide fuel cells |
| title_sort | solid oxide fuel cells from fundamental principles to complete systems |
| title_sub | from fundamental principles to complete systems |
| topic | Solid oxide fuel cells |
| topic_facet | Solid oxide fuel cells |
| url | https://www.taylorfrancis.com/books/mono/10.1201/9780429100000 |
| work_keys_str_mv | AT maricradenka solidoxidefuelcellsfromfundamentalprinciplestocompletesystems AT mirshekarigholamreza solidoxidefuelcellsfromfundamentalprinciplestocompletesystems |