![]() ![]() Robust progress has been made in fuel cell technology since the previous edition of the Fuel Cell Handbook was published in January 1994. military and aerospace systems, and the enormous possibilities inherent in fuel cell-powered electric vehicles. ![]() Also presented are such vital subjects as the U.S. ![]() Wide-ranging analyses of the application more » of fuel cells in utility systems, in on-site integrated energy systems, and industrial cogeneration are included as well. The authors discuss materials used in fuel cells, their multi-fuel ability, siting, flexibility and modularity as well as their economic benefits and potential markets. Contents include: fuel cell operation, the pollution potential, visual esthetics, safety, maintenance and reliability. Department of Energy and the Argonne National Laboratory, this work provides an examination of characteristics and concepts of fuel cell systems, an overview of development programs (including current work in Japan and Europe), practical system designs, fuel cell power plant applications and the current state of the art. « lessĭeveloped with the support of grants from the U.S. A new index assists the reader in locating specific information quickly. A list of fuel cell URLs is included in the Appendix. Section 10 provides examples of practical fuel cell system calculations. Section 9, Fuel Cell Systems, has been significantly revised to characterize near-term and next-generation fuel cell power plant systems at a conceptual level of detail. New information indicates that manufacturers have stayed with proven cell designs, focusing instead on advancing the system surrounding the fuel cell to lower life cycle costs. Alkaline and intermediate solid state fuel cells were added to this edition of the Handbook. Sections 3 through 8 describe the six major fuel cell types and their performance based on cell operating conditions. Section 2 addresses the thermodynamics of fuel cells to provide an understanding of fuel cell operation at two levels (basic and advanced). Section 1 summarizes fuel cell progress since the last edition and includes existing power plant nameplate data. Trends in technology are discussed, including next-generation concepts that promise ultrahigh efficiency and low cost, while providing exceptionally clean power plant systems. ![]() This Handbook provides a foundation in fuel cells for persons wanting a better understanding of the technology, its benefits, and the systems issues that influence its application. Transportation markets worldwide have shown remarkable interest in fuel cells nearly every major vehicle manufacturer in the U.S., Europe, and the Far East is supporting development. Fuel flexibility has been demonstrated using natural gas, propane, landfill gas, anaerobic digester gas, military logistic fuels, and coal gas, greatly expanding market opportunities. Early expectations of very low emissions and relatively high more » efficiencies have been met in power plants with each type of fuel cell. Highlighting this commercial entry, the phosphoric acid power plant fleet has demonstrated 95+% availability and several units have passed 40,000 hours of operation. The previously demonstrated phosphoric acid fuel cells have entered the marketplace with more than 220 power plants delivered. Uppermost, polymer electrolyte fuel cells, molten carbonate fuel cells, and solid oxide fuel cells have been demonstrated at commercial size in power plants. Progress continues in fuel cell technology since the previous edition of the Fuel Cell Handbook was published in November 1998. ![]()
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