Sustainable hydrogen production for fuel cells by steam reforming of ethylene glycol: A consideration of reaction thermodynamics

INIS

• thermodynamics 100%
• steam 100%
• hydrogen production 100%
• fuel cells 100%
• ethylene glycols 100%
• hydrogen 80%
• carbon dioxide 60%
• production 40%
• methane 40%
• comparative evaluations 20%
• water 20%
• capture 20%
• carbon 20%
• high temperature 20%
• energy 20%
• coupling 20%
• purity 20%
• calcium oxides 20%
• water gas 20%
• minimization 20%
• biomass 20%
• by-products 20%
• petroleum 20%
• natural gas 20%
• sorption 20%
• atmospheric pressure 20%
• gibbs free energy 20%

Engineering

• Reaction Thermodynamics 100%
• Steam Reforming 100%
• Hydrogen Production for Fuel Cells 100%
• Hydrogen Production 60%
• Methane 40%
• Low-Temperature 20%
• Renewables 20%
• Gibbs Free Energy Minimization 20%
• Main Source 20%
• Water Gas Shift Reaction 20%
• Hydrogen Energy 20%
• Temperature Increase 20%
• Natural Gas 20%
• Carbon Dioxide Capture 20%
• Atmospheric Pressure 20%

Chemical Engineering

• Ethylene 100%
• Hydrogen Production 100%
• Sorption 25%
• Gibbs Free Energy 25%
• Water-Gas Shift 25%