Fuel Cells and Hydrogen Production: A Volume in the Encyclopedia of Sustainability Science and Technology, Second Edition: Encyclopedia of Sustainability Science and Technology Series
Editat de Timothy E. Lipman, Adam Z. Weberen Limba Engleză Hardback – 5 oct 2018
This handbook offers concise yet comprehensive coverage of the current state of fuel cell research and identifies key areas for future investigation. Internationally renowned specialists provide authoritative introductions to a wide variety of fuel cell types and hydrogen production technologies, and discuss materials and components for these systems. Sustainability and marketing considerations are also covered, including comparisons of fuel cells with alternative technologies.
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Specificații
ISBN-13: 9781493977888
ISBN-10: 1493977881
Pagini: 1200
Ilustrații: XXII, 1179 p. 580 illus., 344 illus. in color. In 2 volumes, not available separately.
Dimensiuni: 178 x 254 mm
Greutate: 2.9 kg
Ediția:1st ed. 2019
Editura: Springer
Colecția Springer
Seria Encyclopedia of Sustainability Science and Technology Series
Locul publicării:New York, NY, United States
ISBN-10: 1493977881
Pagini: 1200
Ilustrații: XXII, 1179 p. 580 illus., 344 illus. in color. In 2 volumes, not available separately.
Dimensiuni: 178 x 254 mm
Greutate: 2.9 kg
Ediția:1st ed. 2019
Editura: Springer
Colecția Springer
Seria Encyclopedia of Sustainability Science and Technology Series
Locul publicării:New York, NY, United States
Cuprins
Part 1: Fuel Cells.- Alkaline Membrane Fuel Cells.- Direct Hydrocarbon Solid Oxide Fuel Cells.- Fuel Cell Comparison to Alternate Technologies.- Fuel Cell Types and Their Electrochemistry.- Fuel Cells (SOFC): Alternative Approaches (Electroytes, Electrodes, Fuels).- Fuel Cells, Introduction.- Membrane Electrolytes, from Perfluorosulfonic Acid (PFSA) to Hydrocarbon Ionomers.- Molten Carbonate Fuel Cells.- PEM Fuel Cell Materials: Costs, Performance and Durability.- PEM Fuel Cells and Platinum-Based Electrocatalysts.- PEM Fuel Cells, Materials and Design Development Challenges.- Phosphoric Acid Fuel Cells for Stationary Applications.- Polybenzimidazole Fuel Cell Technology.- Polymer Electrolyte (PE) Fuel Cell Systems.- Polymer Electrolyte Membrane (PEM) Fuel Cells, Automotive Applications.- Polymer Electrolyte Membrane Fuel Cells (PEM-FC) and Non-noble Metal Catalysts for Oxygen Reduction.- Proton Exchange Membrane Fuel Cells: High-Temperature, Low-Humidity Operation.- Solid Oxide Fuel Cell Materials: Durability, Reliability and Cost.- Solid Oxide Fuel Cells.- Solid Oxide Fuel Cells, Marketing Issues.- Solid Oxide Fuel Cells, Sustainability Aspects.- Part 2: Hydrogen Production Science and Technology.- Advances on Inorganic Membrane Reactors for Production of Hydrogen.- Biohydrogen Production.- Biohydrogen Production from Agricultural Residues.- Electrochemical Hydrogen Production.- Genetic Optimization of Microalgae for Hydrogen Production.- Hydrogen Production from Biological Sources.- Hydrogen Production from High-Temperature Fuel Cells.- Hydrogen Production Science and Technology.- Hydrogen Production through Pyrolysis.- Hydrogen via Direct Solar Production.- Hydrogen Production through Electrolysis.- Photo-catalytic Hydrogen Production.
Notă biografică
Timothy E. Lipman is an energy and environmental technology, economics, and policy researcher and lecturer with the University of California - Berkeley. He is serving as Co-Director for the campus' Transportation Sustainability Research Center (TSRC), based at the Institute of Transportation Studies, and also as Director of the Northern California Center for Alternative Transportation Fuels and Advanced Vehicle Technologies (NorthCAT -- see "northcat.org") effort. Tim's research focuses on electric-drive vehicles, fuel cell technology, combined heat and power systems, biofuels, renewable energy, and electricity and hydrogen energy systems infrastructure.
Most of his research projects are related to the transformation of energy systems to support motor vehicles and buildings, examining how both incremental and "leap frog" technologies can be applied to reduce greenhouse gas emissions and other negative environmental and social impacts of energy use. A central concept for his research is that the electrification of the transportation sector can realize synergy with a concentrated effort to reduce the carbon intensity of the electrical grid, yielding benefit for the electricity sector as well as the expanded use of electricity, hydrogen, and biofuels.
Adam Z. Weber holds B.S. and M.S. degrees from Tufts University, the latter
under the guidance of Professor Maria Flytzani-Stephanopoulos. Next, he
earned his Ph.D. at University of California, Berkeley, in Chemical Engineering
under the guidance of John Newman. His dissertation work focused on the
fundamental investigation and mathematical modeling of water management
in polymer-electrolyte fuel cells.
Dr. Weber continued his study of water and thermal management in
polymer-electrolyte fuel cells at Lawrence Berkeley National Laboratory,
where he is now a staff scientist and program manager for Hydrogen and
Fuel Cell Technologies. His current research involves understanding and
optimizing fuel-cell performance and lifetime including component and
ionomer structure/function studies using advanced modeling and diagnostics,
understanding flow batteries for grid-scale energy storage, and analysis of
solar-fuel generators where he is a Thrust coordinator at the Joint Center for
Artificial Photosynthesis (JCAP).
Dr. Weber has coauthored over 110 peer-reviewed articles and 10 book
chapters on fuel cells, flow batteries, and related electrochemical devices;
developed many widely used models for fuel cells and their components;
and has been invited to present his work at various international and national
meetings. He is the recipient of a number of awards including a Fulbright
scholarship to Australia, the 2008 Oronzio and Niccolò De Nora Foundation
Prize on Applied Electrochemistry of the International Society of Electrochemistry,
the 2012 Supramaniam Srinivasan Young Investigator Award of the
Energy Technology Division of the Electrochemical Society, a 2012 Presidential
Early Career Award for Scientists and Engineers (PECASE), the 2014
CharlesW. Tobias Young Investigator Award of the Electrochemical Society, a
Kavli Fellow in 2014, and the 2016 Sir William Grove Award from the
International Association for Hydrogen Energy. He is a Fellow of The Electrochemical
Society.
Textul de pe ultima copertă
The expected end of the “oil age” will lead to increasing focus and reliance on alternative energy conversion devices, among which fuel cells have the potential to play an important role. Not only can phosphoric acid and solid oxide fuel cells already efficiently convert today’s fossil fuels, including methane, into electricity, but other types of fuel cells, such as polymer electrolyte membrane fuel cells, have the potential to become the cornerstones of a possible future hydrogen economy.This handbook offers concise yet comprehensive coverage of the current state of fuel cell research and identifies key areas for future investigation. Internationally renowned specialists provide authoritative introductions to a wide variety of fuel cell types and hydrogen production technologies, and discuss materials and components for these systems. Sustainability and marketing considerations are also covered, including comparisons of fuel cells with alternative technologies.
Caracteristici
A one-stop reference to alternative energy and sustainability research Covers solid oxide, molten carbonate, phosphoric acid and polymer electrolyte membrane fuel cells Discusses R&D, sustainability and marketing aspects Includes supplementary material: sn.pub/extras