Hydrogen Electrochemical Production. Hydrogen and Fuel Cells Primers

  • ID: 4226429
  • Book
  • 110 Pages
  • Elsevier Science and Technology
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Hydrogen Electrochemical Production presents different avenues of hydrogen production for energy applications, including current developments and future perspectives, using an interdisciplinary approach. Part of the Hydrogen Energy and Fuel Cell Primers series, the volume synthesizes information from many sources, making it a useful reference for industry professionals, researchers and graduate students. The book examines various methods, explaining their advantages and limitations. The water electrolysis reaction and systems are explored from different points of view, including an assessment of state-of-the-art technologies. Alternatives to water for feeding the electrolysis cell anode and for electrochemical hydrogen production (such as alcohol or other compounds from biomass) are discussed.

  • Explores current technology developments and future perspectives of hydrogen production for energy applications
  • Examines the state-of-the art technology in electrolysis reaction and systems and discusses the advantages and limitations of various methods
  • Covers alternatives to water for feeding electrolysis cell anode, including alcohol and other compounds from biomass

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1. Introduction
2. Hydrogen production catalytic reforming
3. Hydrogen production from water electrolysis
4. Hydrogen production from biomass electroreforming
5. Conclusion
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Coutanceau, Christophe
Christophe Coutanceau obtained his Ph.D. degree in electrochemistry in 1994 at the University of Poitiers, France. He then worked as Assistant Professor at the Laboratory of Catalysis in Organic Chemistry (LACCO) in that same institution, before being promoted in 2008. At present, he is Professor in Physical Chemistry at IC2MP and Director of the Catalysis and Unconventional Media group of the Institute of Chemistry of Poitiers. He is also chair of the Low Temperature and Fuel and Electrolysis Cells axis of the Hydrogen-Systems-Fuel Cells Research Grouping from the French National Council of Scientific Research (CNRS). For more than twenty years, his research interests include development of synthesis methods for nanostructured supported metals using green processes (microwave activation, electrochemical methods, etc.) and solvents (polyols, water) and their application as electrocatalysts in fuel cells, electrolysis cells and electrosynthesis reactors. He is also interested in the valorisation of agroresources using electrochemical methods. He has presented or published over a hundred articles in reviewed international journals, as well as several book chapters, invited lectures and world patents related to fuel cells, electrolysis cells and biomass conversion.
Baranton, Stève
Stève Baranton obtained his Ph.D. degree in electrochemistry in 2004. He worked conducted research in Canada and Japan before joining IC2MP as Assistant Professor. His current research interests include the development of synthesis methods for nanostructured supported metals using green processes (microwave activation, electrochemical methods, etc.) and solvents (polyols, water) and their application as electrocatalysts in fuel cells, electrolysis cells and electrosynthesis reactors. He also develops in situ spectroscopic methods. He has presented or published over 90 documents related to fuel cells, electrolysis cells and biomass conversion, including articles in reviewed international journals, book chapters, invited lectures and world patents.
Audichon, Thomas
Thomas Audichon obtained his PhD degree in Materials and Electrochemistry in 2014 from the University of Poitiers, France. He has a post-doctoral position at the Institute of Material and Environment of Poitiers (IC2MP). His current research interests include synthesis and characterisation of nanomaterials (oxides and metals) for oxygen reduction reaction and anodic activation of water in electrolysis cells, and formulation of membrane-electrodes assemblies and measurement of electrochemical performances on an electrolysis test bench. He published several papers in international peer reviewed journals on materials for water electrolysis cells.
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