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High-temperature Solid Oxide Fuel Cells: Fundamentals, Design and Applications
High Temperature Solid Oxide Fuel Cells: Fundamentals, Design and Applications provides a comprehensive discussion of solid oxide fuel cells (SOFCs). SOFCs are the most efficient devices for the electrochemical conversion of chemical energy of hydrocarbon fuels into electricity, and have been gaining increasing attention for clean and efficient distributed power generation. The book explains the operating principle, cell component materials, cell and stack designs and fabrication processes, cell and stack performance, and applications of SOFCs. Individual chapters are written by internationally renowned authors in their respective fields, and the text is supplemented by a large number of references for further information. The book is primarily intended for use by researchers, engineers, and other technical people working in the field of SOFCs. Even though the technology is advancing at a very rapid pace, the information contained in most of the chapters is fundamental enough for the book to be useful even as a text for SOFC technology at the graduate level.
Fuel Cells Compendium
Fuel cells continue to be heralded as the energy source of the future, and every year an immense amount of research time and money is devoted making them more economically and technically viable. Fuel Cells Compendium brings together an up-to-date review of the literature and commentary surrounding fuel cells research. Covering all relevant disciplines from science to engineering to policy, it is an exceptional resource for anyone with an invested interest in the field. - Provides an comprehensive selection of reviews and other industrially focused material on fuel cells research - Broadly scoped to encompass many disciplines, from science to engineering, to applications and policy - In-depth coverage of the two major types of fuel cells: Ceramic (Solid Oxide) and Polymers (Proton Exchange Membranes)
Advances in Joining of Ceramics
Joining remains an enabling technology in several key areas related to the use of ceramics. Development of ceramic materials for electronic, biomedical, power generation, and many other fields continues at a rapid pace. Joining of ceramics is a critical issue in the integration of ceramic components in engineering design. This book includes reviews on the state-of-the-art in ceramic joining, new joining materials and methods, and modeling joint behavior and properties. Proceedings of the symposium held at the 104th Annual Meeting of The American Ceramic Society, April 28-May1, 2002 in Missouri; Ceramic Transactions, Volume 138
Solid Oxide Fuels Cells: Facts and Figures
Solid Oxide Fuel Cells (SOFCs) operate at high temperatures allowing more fuel flexibility and also useful heat output and so increase total efficiency, but does give some interesting engineering challenges. Solid Oxide Fuels Cells: Facts and Figures provides clear and accurate data for a selection of SOFC topics from the specific details of Ni cermet anodes, chemical expansion in materials, and the measuring and modelling of mechanical stresses, to the broader scope of the history and present design of cells, to SOFC systems and the future of SOFC. Celebrating Ulf Bossel’s work on Solid Oxide Fuel Cells, and especially his running of the European Fuel Cell Forum, Solid Oxide Fuels Cells: ...
Fuel Cells and Hydrogen Storage
S.C. Singhal and X.-D. Zhou: Solid Oxide Fuel Cells.- H. Wang and H.D. Abruña/: Electrocatalysis of Direct Alcohol Fuel Cells: Quantitative DEMS Studies.- J. Benziger, A. Bocarsly, M.J. Cheah, P.Majsztrik, B. Satterfield and Q. Zhao: Mechanical and Transport Properties of Nafion: Effects of Temperature and Water Activity.- S. Sachdeva, J. A. Turner, J.L. Horana and A. M. Herring: The Use of Heteropoly Acids in Proton Exchange Fuel Cells.- M. T. Kelly: Perspective on the Storage of Hydrogen: Past and Future.-
Handbook of Fuel Cells
A timely addition to the highly acclaimed four-volume handbook set; volumes 5 and 6 highlight recent developments, particularly in the fields of new materials, molecular modeling and durability. Since the publication of the first four volumes of the Handbook of Fuel Cells in 2003, the focus of fuel cell research and development has shifted from optimizing fuel cell performance with well-known materials to developing new materials concepts, and to understanding the origins of materials and fuel cell degradation. This new two-volume set provides an authoritative and timely guide to these recent developments in fuel cell research.
