Hydrogen and Fuel Cells: Fundamentals, Technologies and ApplicationsDetlef Stolten Authored by 40 of the most prominent and renowned international scientists from academia, industry, institutions and government, this handbook explores mature, evolving technologies for a clean, economically viable alternative to non-renewable energy. In so doing, it includes how hydrogen can be safely produced, stored, transported and utilized, while also covering such broader topics as the environmental impact, education and regulatory developments. |
Contents
41 | 4 |
Hydrogen Energy Edited by Detlef Stolten | 41 |
HighTemperature Fuel Cell Technology | 61 |
Fuel Infrastructures | 119 |
Fuel Provision for Early Market Applications | 149 |
Hydrogen Production Technologies | 167 |
Thermochemical Cycles | 189 |
Safety Issues | 192 |
Renewable Hydrogen Production | 465 |
Environmental Impact of Hydrogen Technologies | 489 |
Strategic Analyses | 531 |
Life Cycle Analysis and Economic Impact | 551 |
Strategic and Socioeconomic Studies in Hydrogen Energy | 567 |
Market Introduction for Hydrogen and Fuel Cell Technologies | 577 |
Hydrogen and Fuel Cells around the Corner the Role of Regions | 597 |
Safety Analysis of Hydrogen Vehicles and Infrastructure | 629 |
HighTemperature Water Electrolysis Using Planar Solid Oxide | 227 |
Alkaline Electrolysis Introduction and Overview | 243 |
Polymer Electrolyte Membrane PEM Water Electrolysis | 271 |
Reforming and Gasification Fossil Energy Carriers | 291 |
Reforming and Gasification Biomass | 307 |
State of the Art of Ceramic Membranes for Hydrogen Separation | 321 |
Recent Trends and Insights | 351 |
Storages | 375 |
Metal Hydrides | 395 |
Complex Hydrides | 415 |
Adsorption Technologies | 431 |
Policy Perspectives Initiatives and Cooperations | 447 |
9783527327119 | 646 |
Advancing Commercialization of Hydrogen and Fuel Cell Technologies | 649 |
Auxiliary Power Units for LightDuty Vehicles Trucks Ships | 681 |
Portable Applications and Light Traction | 715 |
Stationary Applications | 733 |
Fuel Cells for Buildings | 755 |
Transportation Applications | 791 |
Hydrogen Internal Combustion Engines | 811 |
Systems Analysis and WelltoWheel Studies | 831 |
Electrification in Transportation Systems | 853 |
3 | 860 |
4 | 872 |
Common terms and phrases
achieved acid activity adsorption alkaline anode applications biomass carbon catalyst cathode cell voltage Chem chemical combustion compression cost current density DMFC drogen efficiency electricity electrochemical electrode emissions energy carrier energy system environmental exergy efficiency Figure flow fossil fuels fuel cell system fuel cell vehicles gasification heat high-temperature higher hydro hydrogen and fuel hydrogen economy Hydrogen Energy hydrogen infrastructure hydrogen production hydrogen stations hydrogen storage hydrogen vehicles increase industrial hydrogen ionic materials membrane methane methanol microporous Nafion natural gas operating temperature overpotential oxide oxygen PEFC PEM fuel cell performance phase pipeline plant polymer polymer electrolyte pore potential Power Sources pressure Program reaction reactor reduced refueling renewable energy SOFC solar solid stations steam reforming supply sustainability syngas tank thermal thermochemical cycles thermodynamic thermophilic tion transport ture water electrolysis WILEY-VCH Verlag zeolite