Hydrogen Energy Progress VI: Proceedings of the 6th World Hydrogen Energy Conference, Vienna, Austria, 1986T. N. Vezirgolu, N. Getoff, P. Weinzierl |
Contents
CENTRAL PLACE THEORY AND THE KEY TO HYDROGEN DOMINANCE | 3 |
HYDROGEN ENERGYEXPECTED ENGINEERING BREAKTHROUGHS | 9 |
FEED STOCK FOR HYDROGEN PRODUCTION | 30 |
Copyright | |
30 other sections not shown
Common terms and phrases
activity alkaline anode applications carbon catalysts cathode cell voltage chemical coal combustion components consumption current density cycle diaphragm economic efficiency electrocatalyst electrochemical electrode electrolytic hydrogen emissions engine equipment evaluation factor fluid hydrogen isotopes fossil fuels fuel cell gases gasification gasoline H₂ heat high temperature hydride hydrogen costs hydrogen production increase industry installed layer liquid hydrogen materials measured membrane MEMBREL metal methanol mixture molecular natural gas nickel nuclear operation overpotential overvoltage oxidation oxygen evolution packed bed parameter photocatalytic photovoltaic plasma spraying polymers porous potential power plants present pressure production of hydrogen Raney nickel ratio reaction reduced Research SFWE Sharma shown in Fig solar energy solar hydrogen solution spraying steam steam reforming storage supply surface Tafel tank thermal transport turbine utilization vehicles vibration volume water electrolysis World Hydrogen Energy