PEM Electrolysis for Hydrogen Production: Principles and ApplicationsDmitri Bessarabov, Haijiang Wang, Hui Li, Nana Zhao CRC Press, 3 feb 2016 - 401 pagina's An ever-increasing dependence on green energy has brought on a renewed interest in polymer electrolyte membrane (PEM) electrolysis as a viable solution for hydrogen production. While alkaline water electrolyzers have been used in the production of hydrogen for many years, there are certain advantages associated with PEM electrolysis and its relevan |
Overige edities - Alles bekijken
PEM Electrolysis for Hydrogen Production: Principles and Applications Dmitri Bessarabov,Haijiang Wang,Hui Li,Nana Zhao Gedeeltelijke weergave - 2016 |
PEM Electrolysis for Hydrogen Production: Principles and Applications Dmitri Bessarabov,Haijiang Wang,Hui Li,Nana Zhao Geen voorbeeld beschikbaar - 2015 |
PEM Electrolysis for Hydrogen Production: Principles and Applications Dmitri Bessarabov,Haijiang Wang,Hui Li,Nana Zhao Geen voorbeeld beschikbaar - 2017 |
Veelvoorkomende woorden en zinsdelen
acid activity alkaline anode applications Bessarabov bipolar plates carbon catalyst catalytic layers cathode cell components cell voltage chemical Chemistry compression concentration contact resistance corrosion cost current collectors current density degradation diffusion durability efficiency electrical electrocatalysts electrochemical compression Electrochemical Society Electrochemistry Electrochimica Acta electrode Equation exchange current density flow Grigoriev Hydrogen Energy hydrogen gas hydrogen production increase interface International Journal ionic ionomer iridium iridium oxide IrO2 isotope Journal of Hydrogen Journal of Power kinetics liquid water materials measured mechanical metal methanol Millet Nafion nanoparticles NSTF catalyst ohmic operation overpotential oxide oxygen evolution ozone particles PEM electrolyzer PEM fuel cells PEM water electrolysis PEM-WE performance permeability PFSA platinum polarization curve potential Power Sources Power-to-Gas pressure proton conductivity proton exchange membrane reduce RuO2 separation solid polymer electrolyte solution structure sulfuric acid temperature thermal thermodynamic titanium typically water electrolysis cell