Handbook of Fuel Cells: Fundamentals, Technology, Applications, 4 Volume SetISBN: 978-0-471-49926-8
Hardcover
3372 pages
May 2003
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VOLUME 1: FUNDAMENTALS AND SURVEY OF SYSTEMS.
Contributors to Volume 1.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 1: Thermodynamics and kinetics of fuel cell reactions.
Part 2: Mass transfer in fuel cells.
Part 3: Heat transfer in fuel cells.
Part 4: Fuel cell principles, systems and applications.
Contents for Volumes 2, 3 and 4.
Subject Index.
VOLUME 2: ELECTROCATALYSIS.
Contributors to Volume 2.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 1: Introduction.
Part 2: Theory of electrocatalysis.
Part 3: Methods in electrocatalysis.
Part 4: The hydrogen oxidation/evolution reaction.
Part 5: The oxygen reduction/evolution reaction.
Part 6: Oxidation of small organic molecules.
Part 7: Other energy conversion related topics.
Contents for Volumes 1, 3 and 4.
Subject Index.
VOLUME 3: FUEL CELL TECHNOLOGY AND APPLICATIONS: PART 1.
Contributors to Volumes 3 and 4.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 1: Sustainable energy supply.
Part 2: Hydrogen storage and hydrogen generation.
Development prospects for hydrogen storage.
Chemical hydrogen storage devices.
Reforming of methanol and fuel processor development.
Fuel processing from hydrocarbons to hydrogen.
Well-to-wheel efficiencies.
Hydrogen safety, codes and standards.
Part 3: Polymer electrolyte membrane fuel cell systems (PEMFC).
Bipolar plate materials and flow field design.
Membrane materials.
Electro-catalysts.
Membrane-electrode-assembly (MEA).
State-of-the-art performance and durability.
VOLUME 4: FUEL CELL TECHNOLOGY AND APPLICATIONS, PART 2.
Contributors to Volume 3 and 4.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 3: Polymer electrolyte membrane fuel cells and systems (PEMFC) (Continued from previous volume).
System design and system-specific aspects.
Air-supply components.
Applications based on PEM-technology.
Part 4: Alkaline fuel cells and systems (AFC).
Part 5: Phosphoric acid fuel cells and systems (PAFC).
Part 6: Direct methanol fuel cells and systems (DMFC).
Part 7: Molten carbonate fuel cells and systems (MCFC).
Part 8: Solid oxide fuel cells and systems (SOFC).
Materials.
Stack and system design.
New concepts.
Part 9: Primary and secondary metal/air cells.
Part 10: Portable fuel cell systems.
Part 11: Current fuel cell propulsion systems.
PEM fuel cell systems for cars/buses.
PEM fuel cell systems for submarines.
AFC fuel cell systems.
Part 12: Electric utility fuel cell systems.
Part 13: Future prospects of fuel cell systems.
Contents for Volumes 1 and 2.
Subject Index.
Contributors to Volume 1.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 1: Thermodynamics and kinetics of fuel cell reactions.
Part 2: Mass transfer in fuel cells.
Part 3: Heat transfer in fuel cells.
Part 4: Fuel cell principles, systems and applications.
Contents for Volumes 2, 3 and 4.
Subject Index.
VOLUME 2: ELECTROCATALYSIS.
Contributors to Volume 2.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 1: Introduction.
Part 2: Theory of electrocatalysis.
Part 3: Methods in electrocatalysis.
Part 4: The hydrogen oxidation/evolution reaction.
Part 5: The oxygen reduction/evolution reaction.
Part 6: Oxidation of small organic molecules.
Part 7: Other energy conversion related topics.
Contents for Volumes 1, 3 and 4.
Subject Index.
VOLUME 3: FUEL CELL TECHNOLOGY AND APPLICATIONS: PART 1.
Contributors to Volumes 3 and 4.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 1: Sustainable energy supply.
Part 2: Hydrogen storage and hydrogen generation.
Development prospects for hydrogen storage.
Chemical hydrogen storage devices.
Reforming of methanol and fuel processor development.
Fuel processing from hydrocarbons to hydrogen.
Well-to-wheel efficiencies.
Hydrogen safety, codes and standards.
Part 3: Polymer electrolyte membrane fuel cell systems (PEMFC).
Bipolar plate materials and flow field design.
Membrane materials.
Electro-catalysts.
Membrane-electrode-assembly (MEA).
State-of-the-art performance and durability.
VOLUME 4: FUEL CELL TECHNOLOGY AND APPLICATIONS, PART 2.
Contributors to Volume 3 and 4.
Foreword.
Preface.
Abbreviations and Acronyms.
Part 3: Polymer electrolyte membrane fuel cells and systems (PEMFC) (Continued from previous volume).
System design and system-specific aspects.
Air-supply components.
Applications based on PEM-technology.
Part 4: Alkaline fuel cells and systems (AFC).
Part 5: Phosphoric acid fuel cells and systems (PAFC).
Part 6: Direct methanol fuel cells and systems (DMFC).
Part 7: Molten carbonate fuel cells and systems (MCFC).
Part 8: Solid oxide fuel cells and systems (SOFC).
Materials.
Stack and system design.
New concepts.
Part 9: Primary and secondary metal/air cells.
Part 10: Portable fuel cell systems.
Part 11: Current fuel cell propulsion systems.
PEM fuel cell systems for cars/buses.
PEM fuel cell systems for submarines.
AFC fuel cell systems.
Part 12: Electric utility fuel cell systems.
Part 13: Future prospects of fuel cell systems.
Contents for Volumes 1 and 2.
Subject Index.
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