Hydrogen and fuel cells: [fundamentals, technologies and applications]
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Tagungsbericht Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2010
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Kongress aus dem Vorw. entnommen |
| Beschreibung: | XXXIV, 877 S. Ill., graph. Darst., Kt. |
| ISBN: | 9783527327119 |
Internformat
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Datensatz im Suchindex
| _version_ | 1804143391826509824 |
|---|---|
| adam_text | Titel: Hydrogen and fuel cells
Autor: Stolten, Detlef
Jahr: 2010
Contents
Foreword XIX
Preface XXI
List of Contributors XXV
Fuel Cell Basics
1 Electrocatalysis and Catalyst Degradation Challenges
in Proton Exchange Membrane Fuel Cells 3
Hubert A. Gasteiger, Daniel R. Baker, Robert N. Carter, Wenbin Gu,
Yuxin Liu, Frederick T. Wagner, and Paul T. Yu
Abstract 3
1.1 Introduction 3
1.2 Voltage Losses in State-of-the-Art Automotive PEM Fuel Cells 4
1.3 Catalyst Development Needs and Approaches 6
1.4 Catalyst Degradation via Platinum Dissolution 10
1.5 Carbon-Support Corrosion 11
1.6 Conclusion 14
References 14
1 High-Temperature PEM Fuel Cells:
Electrolytes, Cells, and Stacks 17
Christoph Wannek
Abstract ] 7
2.1 I ntroducrion 17
2.2 Approaches to Increase the Operating Temperature
of Sulfonated Membranes 19
2.3 HT-PEFCs with Phosphoric Acid-Based Polybenzimidazole-Type
Membranes 23
2.4 Alternative Liquid Electrolytes 33
2.5 Acidic Salts and Oxides 35
2.6 Conclusion 36
References 37
Hydrogen Energy. Edited by Detlef Stoken
Copyright © 2010 WILEY-VCH Verlag GmbH . Co. KGaA, Weinheim
ISBN: 978-3-527-32711-9
VI I Contents
3 Current Status of and Recent Developments
in Direct Liquid Fuel Cells 41
Jiirgen Mergel, Andreas Gliisen, and Christoph Wannek
Abstract 41
3.1 Introduction 41
3.2 Direct Methanol Fuel Cells 44
3.3 Direct Ethanol Fuel Cells 55
3.4 Conclusion 57
References 57
4 High-Temperature Fuel Cell Technology 61
Gael P. G. Corre and John T. S. Irvine
Abstract 61
4.1 Introduction 61
4.2 Solid Oxide Fuel Cell 65
4.3 Molten Carbonate Fuel Cell 78
4.4 Thermodynamics of Fuel Cells 78
4.5 Fuel Cell Efficiency 80
References 85
5 Advanced Modeling in Fuel Cell Systems:
a Review of Modeling Approaches 89
Matthew M. Mench
Abstract 89
5.1 Introduction 89
5.2 State-of-the-Art Computational Models for Low-Temperature
Polymer Electrolyte Fuel Cell Systems 98
5.3 Case Study of Water Management in PEFCs 102
5.4 Future Research Needs 112
Acknowledgments 113
References 113
Fuel infrastructures
6 Hydrogen Distribution Infrastructure for an Energy System:
Present Status and Perspectives of Technologies 121
Francoise Barbier
Abstract 121
6.1 Introduction 121
6.2 Hydrogen Transport by Gaseous Pipelines 123
6.3 Hydrogen Transport by Road 129
6.4 Alternative Hydrogen Delivery Systems 133
Contents VII
6.5 Stationary Bulk Storage of Hydrogen 134
6.6 Supporting Technologies 236
6.7 Hydrogen Fueling Stations 141
6.8 Conclusion 145
References 146
7 Fuel Provision for Early Market Applications 149
Manfred Fischedick and Andreas Pastowski
Abstract 149
7.1 Introduction: Hydrogen Supply Today and Tomorrow 149
7.2 Balancing New Applications and Hydrogen Supply 151
7.3 Criteria for Fuel Supply - Short- and Long-Term Requirements 154
7.4 Hydrogen Production and Distribution 156
7.5 Conclusion 164
References 165
Hydrogen Production Technologies
8 Non-Thermal Production of Pure Hydrogen from Biomass:
HYVOLUTION 269
Pietemel A. M. Claassen, Truus de Vrije, Emmanuel G. Koukios,
Ed W.J. van Niel, Ebru Ozgur, Inci Eroglu, Isabella Nowik,
Michael Modigell, Walter Wukovits, Anton Friedl, Dominik Ochs,
and Werner Ahrer
Abstract 169
8.1 Introduction 169
8.2 State of the Art 272
8.3 Methodology 272
8.4 The Project s Current Relation to the State of the Art 274
8.5 Conclusion 285
Acknowledgments 185
References 285
9 Thermochemical Cycles 289
Christian Sattler
Abstract 289
9.1 Introduction 189
9.2 Historical Development 290
9.3 State of Work 292
9.4 Conclusion and Outlook 202
Abbreviations 203
References 203
VIII Contents
10 Hydrogen Production:
Fundamentals and Case Study Summaries 207
Kevin W. Harrison, Robert Remick, Gregory D. Martin, and Aaron Hoskin
Abstract 207
10.1 Heating Value, Heat of Reaction, and Free Energy 207
10.2 Heat of Formation and Free Energy of Formation 209
10.3 Calculating Fuel Cell System Efficiency 210
10.4 Water Electrolysis 223
10.5 Case Studies of Wind/Hydrogen Projects 227
10.6 Conclusion 225
Acronyms and Abbreviations 225
Acknowledgment 226
References 226
11 High-Temperature Water Electrolysis Using Planar Solid Oxide
Fuel Cell Technology: a Review 227
Mohsine Zahid, Josef Schefold, and Annabelle Brisse
Abstract 227
11.1 Introduction to High-Temperature Electrolysis 228
11.2 History of High Temperature Steam Electrolysis 230
11.3 Solid Oxide Electrolyzer Cells 233
11.4 Solid Oxide Electrolyzer Stacks 239
11.5 Conclusion 240
References 241
12 Alkaline Electrolysis - Introduction and Overview 243
Detlef Stolten and Dennis Krieg
Abstract 243
12.1 Introduction 243
12.2 Definition 244
12.3 The Principle 244
12.4 History 246
12.5 Basics of Electrolysis 249
12.6 Technical Alkaline Concepts 254
12.7 Status of Technology 265
12.8 Conclusion 266
Acknowledgments 267
References 267
Contents IX
13 Polymer Electrolyte Membrane (PEM) Water Electrolysis 272
Tom Smolinka, Sebastian Rau, and Christopher Hebling
Abstract 272
13.1 Introduction 272
13.2 Fundamentals of PEM Electrolysis 272
13.3 Membrane Electrode Assembly 278
13.4 Current Collectors, Bipolar Plates, and Stack Design 280
13.5 System Design 285
13.6 Conclusion 286
13.7 Symbols and Abbreviations 287
References 288
14 Reforming and Gasification - Fossil Energy Carriers 291
Jens Rostrup-Nielsen
Abstract 291
14.1 Introduction. The Need for H2 291
14.2 Basic Technologies 292
14.3 Process Schemes 296
14.4 Hydrogen from Coal 302
14.5 Conclusion 303
References 303
15 Reforming and Gasification - Biomass 307
Achim Schaadt, Siegfried W. Rapp, and Christopher Hebling
Abstract 307
15.1 Introduction 307
15.2 Gasification of Biomass 308
References 318
16 State of the Art of Ceramic Membranes for Hydrogen Separation 322
Wilhelm-A. Meulenberg, Mariya E. Ivanovo, Tim van Gestel, Martin Bram,
Hans-Peter Buchkremer, Detlev Stover, and Jose M. Serra
Abstract 322
16.1 Introduction 321
16.2 Microporous Membranes for H2 Separation 322
16.3 Dense Ceramic Membranes for H2 Separation 333
16.4 Conclusion and Outlook 344
Acknowledgments 346
References 346
X Contents
17 Hydrogen System Assessment: Recent Trends and Insights 352
Joan M. Ogden 351
Abstract 351
17.1 Introduction 352
17.2 Survey of Hydrogen System Assessment Models: Recent Trends
and Insights 354
17.3 Towards a Comprehensive Framework for Hydrogen
Systems Analysis 367
References 368
Storages
18 Physical Hydrogen Storage Technologies - a Current Overview 377
Bert Hobein and Roland Krtiger
Abstract 377
18.1 Introduction 377
18.2 General Overview 377
18.3 Fuel System Design and Specifications 382
18.4 Conclusion 393
References 393
19 Metal Hydrides 395
Etsuo Akiba
Abstract 395
19.1 Introduction 395
19.2 Part I: Fundamentals of Metal Hydrides for Hydrogen Storage 396
19.3 Part II: Applications of Metal Hydrides 404
19.4 Conclusion 422
References 422
20 Complex Hydrides 415
Andreas Borgschulte, Robin Gremaud, Oliver Friedrichs, Philippe Mauron,
Arndt Remhof and Andreas Ziittel
Abstract 415
20.1 Introduction 425
20.2 The Structure of Complex Hydrides 429
20.3 Thermodynamics of Complex Hydrides 420
20.4 Organic Hydrides for Hydrogen Storage 424
20.5 Hydrogen Storage Systems Using Complex and Organic Hydrides 425
References 427
Contents I XI
21 Adsorption Technologies 431
Barbara Schmitz and Michael Hirscher
Abstract 431
21.1 Adsorption 432
21.2 History of Adsorption 432
21.3 Hydrogen Adsorption 432
21.4 Materials 433
21.5 Hydrogen Storage 436
21.6 Total Storage Capacity 439
21.7 Conclusion 442
References 442
Policy Perspectives, Initiatives and Cooperations
22 National Strategies and Programs 449
Jorg Schindler
Abstract 449
22.1 The Imminent Transition to a Postfossil Energy World 449
22.2 The Role of Secondary Energy Carriers 454
22.3 Hydrogen in Transport 455
TLA National Strategies and Programs 456
22.5 Conclusion 462
Acknowledgment 462
References 463
23 Renewable Hydrogen Production 465
Alan C. Lloyd, Ed Pike, and Anil Baral
Abstract 465
23.1 Introduction 465
23.2 Rationale for Renewable Hydrogen 465
23.3 Renewable Hydrogen Pathways 472
23.4 Renewable Hydrogen Policy Drivers 480
23.5 Conclusion 484
Acknowledgment 485
References 486
24 Environmental Impact of Hydrogen Technologies 489
Ibrahim Dincer and T. Nejat Veziroglu
Abstract 489
24.1 Introduction 489
24.2 Sustainable Development 490
24.3 Sustainable Development and Thermodynamic Principles 493
XII Contents
24.4 Hydrogen Versus Fossil Fuels 497
24.5 Future Energy Systems 505
24.6 Case Study I 507
24.7 Case Study II 515
24.8 Conclusion 524
Acknowledgments 524
Nomenclature 524
References 526
Strategic Analyses
25 Research and Development Targets and Priorities 533
Clemens Alexander Trudewind and Hermann-Josef Wagner
Abstract 533
25.1 Introduction 533
25.2 Procedure 534
25.3 Scenarios 534
25.4 Investigation of Technologies 536
25.5 Conclusion 546
Acknowledgments 547
References 548
26 Life Cycle Analysis and Economic Impact 551
Ulrich Wagner, Michael Beer, Jochen Habermann, and Philipp Pfeifroth
Abstract 552
26.1 Introduction 551
26.2 Definitions and Methodology 552
26.3 Extraction, Conversion, and Distribution of Fuels 553
26.4 Results of Process Chain Analyses 555
26.5 Conclusion 563
References 564
27 Strategic and Socioeconomic Studies in Hydrogen Energy 567
David Hart
Abstract 567
27.1 Introduction 567
27.2 Defining Socioeconomics 568
27.3 Examples 569
27 .4 Economic Analysis 569
27.5 Visions and Futures 570
27.6 Social Behavior 572
27.7 Drivers and Barriers 572
Contents XIII
27.8 Finance 572
27.9 Business 573
27.10 Conclusion 574
Further Reading 574
28 Market Introduction for Hydrogen and Fuel Cell Technologies 577
Marianne Haug and Hanns-Joachim Neef
Abstract 577
28.1 Introduction 577
28.2 Market Introduction of Radical Innovations:
What Do We Know from the Literature? 579
28.3 The Fuel Cell and Hydrogen Road Maps:
from Visions to Public/Private Coalitions 581
28.4 International Cooperation: Value Added During
Market Introduction? 583
28.5 Market Introduction: The Status Quo 584
28.6 Conclusion: Co-evolution of Technology and Policy 593
References 594
29 Hydrogen and Fuel Cells around the Corner - the Role of Regions
and Municipalities Towards Commercialization 597
Andreas Ziolek, Marieke Reijalt, and Thomas Kattenstein
Abstract 597
29.1 Introduction 597
29.2 The Role of Regional and Local Activities 599
29.3 HyRaMP - Organizing Local and Regional Drivers in Europe 604
29.4 Conclusion 605
References 606
30 Zero Regio: Recent Experience with Hydrogen Vehicles
and Refueling Infrastructure 609
Heinrich Lienkamp and Ashok Rastogi
Abstract 609
30.1 Introduction 610
30.2 Hydrogen Production and Quality 611
30.3 Refueling Infrastructure 624
30.4 FCV Fleets and Demonstration 620
30.5 Socioeconomic Investigations 623
30.6 Dissemination 623
30.7 Conclusion 624
Acknowledgments 625
References 626
XIV I Contents
Safety Issues
31 Safety Analysis of Hydrogen Vehicles and Infrastructure 629
Thomas Jordan and Wolfgang Breitung
Abstract 629
31.1 Motivation of Hydrogen-Specific Safety Investigations 630
31.2 Phenomena 631
31.3 Safety Analysis Procedures 635
31.4 Scenarios 637
31.5 Outlook 643
References 644
Further Reading 647
32 Advancing Commercialization of Hydrogen and Fuel Cell Technologies
Through International Cooperation of Regulations, Codes,
and Standards (RCS) 649
Randy Dey
Abstract 649
32.1 Introduction 649
32.2 Hydrogen - a Part of the New Energy Mix 650
32.3 Regulations, Codes, and Standards (RCS) -
a Necessary Step to Commercialization 650
32.4 International RCS Bodies - Responsible for the Standardization
of Hydrogen and Fuel Cell Technologies 651
32.5 International Cooperation in RCS 652
32.6 International Cooperation Between RCS
and Pre-Normative Research (PNR) 653
32.7 Hydrogen Refueling Stations (HRS) 653
32.8 Conclusion 655
Definitions 655
References 656
Existing and Emerging Markets
33 Aerospace Applications of Hydrogen and Fuel Cells 662
Christian Roessler, Joachim Schoemann, and Horst Baier
Abstract 662
33.1 Introduction and Overview of Hydrogen and Fuel Cell Use 662
33.2 Possible Fuel Cell Types for Aviation 663
33.3 Application in Unmanned Aerial Vehicles (UAVs) 664
33.4 Applications in General Aviation 670
33.5 Application to Commercial Transport Aircraft 674
Contents XV
33.6 Conclusion 677
References 678
34 Auxiliary Power Units for Light-Duty Vehicles, Trucks, Ships,
and Airplanes 681
Ralf Peters
Abstract 682
34.1 Operating Conditions for Auxiliary Power Units 681
34.2 System Design 691
34.3 Present Status of Fuel Cell-Based APU Systems 703
34.4 System Evaluation 708
34.5 Conclusion 709
Acknowledgments 709
References 720
35 Portable Applications and Light Traction 725
Jurgen Garche
Abstract 725
35.1 Introduction 725
35.2 Demand on Fuel Cells for Portable Applications 716
35.3 Fuel Cell Technology 717
35.4 Fuel 720
35.5 Applications 722
References 732
Stationary Applications
36 High-Temperature Fuel Cells in Decentralized Power Generation 735
Robert Steinberger-Wilckens and Niels Christiansen
Abstract 735
36.1 Introduction 735
36.2 Distributed Generation as a Tool to Improve the Efficiency
of Electricity Provision 736
36.3 Fuel Cells in Distributed Generation 739
36.4 Designing for High Efficiency 742
36.5 Developments in the United States 744
36.6 Asian and Pacific Developments 746
36.7 European Developments 748
36.8 Economic Prospects in DG Fuel Cell Development 750
36.9 Outlook 752
References 752
XVI Contents
37 Fuel Cells for Buildings 755
John F. Elter
Abstract 755
37.1 Introduction 755
37.2 Voice of the Customer37.2 Voice of the Customer 758
37.3 Fuel Cell Basics and Types37.3 Fuel Cell Basics and Types 762
37.4 Recent Advances 768
37.5 Fuel Cell Systems 772
37.6 System Control 784
37.7 Conclusion 785
References 786
Transportation Applications
38 Fuel Cell Power Trains 793
Peter Froeschle and Jbrg Wind
Abstract 793
38.1 Introduction 793
38.2 Layout and Functionality of the Fuel Cell Hybrid Power Train 795
38.3 Technological Leaders of Fuel Cell Drive Train Development 799
38.4 Next Milestones on the Way to Commercialization 808
38.5 Future Outlook 809
References 809
39 Hydrogen Internal Combustion Engines 822
H. Eichlseder, P. Grabner, and R. Heindl
Abstract 821
39.1 A History 811
39.2 State of the Art 824
39.3 New Concepts 828
39.4 Future Perspectives 825
39.5 Conclusion 829
References 829
40 Systems Analysis and Well-to-Wheel Studies 831
Thomas Grube, Bernd Hohlein, Christoph Stiller, and Werner Weindorf
Abstract 831
40.1 Introduction 831
40.2 Platinum Group Metal Requirements for Fuel Cell Systems 832
40.3 Dynamic Powertrain Simulation 836
40.4 Well-to-Wheel Studies 841
Abbreviations 849
Contents XVII
Symbols 850
References 850
41 Electrification in Transportation Systems 853
Arndt Freialdenhoven and Henning Wallentowitz
Abstract 853
41.1 Driving Forces for Electric Mobility 853
41.2 Design of Battery Electric Vehicles (BEVs) 856
41.3 Requirements on Players 869
41.4 Conclusion 872
References 873
Index 875
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| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Hydrogen and fuel cells [fundamentals, technologies and applications] [18th World Hydrogen Energy Conference 2010]. Ed. by Detlef Stolten Weinheim Wiley-VCH 2010 XXXIV, 877 S. Ill., graph. Darst., Kt. txt rdacontent n rdamedia nc rdacarrier Kongress aus dem Vorw. entnommen Wasserstoffenergietechnik (DE-588)4121905-3 gnd rswk-swf Brennstoffzelle (DE-588)4008195-3 gnd rswk-swf (DE-588)1071861417 Konferenzschrift gnd-content Brennstoffzelle (DE-588)4008195-3 s Wasserstoffenergietechnik (DE-588)4121905-3 s DE-604 Stolten, Detlef (DE-588)1084246333 edt World Hydrogen Energy Conference 18 2010 Essen Sonstige (DE-588)16055050-6 oth HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020653984&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Hydrogen and fuel cells [fundamentals, technologies and applications] Wasserstoffenergietechnik (DE-588)4121905-3 gnd Brennstoffzelle (DE-588)4008195-3 gnd |
| subject_GND | (DE-588)4121905-3 (DE-588)4008195-3 (DE-588)1071861417 |
| title | Hydrogen and fuel cells [fundamentals, technologies and applications] |
| title_auth | Hydrogen and fuel cells [fundamentals, technologies and applications] |
| title_exact_search | Hydrogen and fuel cells [fundamentals, technologies and applications] |
| title_full | Hydrogen and fuel cells [fundamentals, technologies and applications] [18th World Hydrogen Energy Conference 2010]. Ed. by Detlef Stolten |
| title_fullStr | Hydrogen and fuel cells [fundamentals, technologies and applications] [18th World Hydrogen Energy Conference 2010]. Ed. by Detlef Stolten |
| title_full_unstemmed | Hydrogen and fuel cells [fundamentals, technologies and applications] [18th World Hydrogen Energy Conference 2010]. Ed. by Detlef Stolten |
| title_short | Hydrogen and fuel cells |
| title_sort | hydrogen and fuel cells fundamentals technologies and applications |
| title_sub | [fundamentals, technologies and applications] |
| topic | Wasserstoffenergietechnik (DE-588)4121905-3 gnd Brennstoffzelle (DE-588)4008195-3 gnd |
| topic_facet | Wasserstoffenergietechnik Brennstoffzelle Konferenzschrift |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020653984&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT stoltendetlef hydrogenandfuelcellsfundamentalstechnologiesandapplications AT worldhydrogenenergyconferenceessen hydrogenandfuelcellsfundamentalstechnologiesandapplications |