Hydrogen as an energy carrier : technologies, systems, economy / Carl-Jochen Winter, Joachim Nitsch.
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TextPublisher: [S.l.] : Springer, 2011Edition: Softcover reprint of the original 1st ed. 1988Description: 380 p. ; 23 cmISBN: 364264872X ; 9783642648724 DDC classification: 665.81 Online resources: Amazon.com Summary: The technologies of hydrogen's energetic utilization have been known for a long time. But aspects of system analysis, energy economics, and ecology that would come into play in introducing it into energy systems nave received much less attention. For those reasons, this book attempts to show the development path of a hydrogen economy, based on assured technological knowledge. One special concern has been to demonstrate, on one hand, how these developments would fit into existing energy supply structures, and, on the other, how they would contribute to further development of the energy system as a whole. With that goal in mind it is necessary to contrast the obvious advantages of hydrogen with the large efforts that would be required for its introduction. This total-systems approach led to a three-part organization of the book that also aids the reader in quickly identifying those parts that are of special interest to him. Section A essentially explains why it is necessary today to think about a new synthetic energy carrier. It also describes the irreplacable and growing role of hydrogen as a chemical raw material, and it explains technologies that al� ready exist for its energetic use or that need further development. An attempt has also been made to prove that hydrogen's safety characteristics indeed per� mit its handling and use as an energy carrier. Hopefully, all this will show that hydrogen, together with electricity, could be the universally employable energy carrier of a future non-fossil energy supply system.
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US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) | NFIC | General Stacks | 665.81 HYD 2011 (Browse shelf) | Available | CAS-E0000324 |
Browsing US-Pakistan Center for Advanced Studies in Energy (USPCAS-E) shelves, Shelving location: General Stacks Close shelf browser
| 665.81 HAN 2010 Handbook of hydrogen storage : | 665.81 HYD 2008 Hydrogen as a future energy carrier / | 665.81 HYD 2010 Hydrogen and syngas production and purification technologies / | 665.81 HYD 2011 Hydrogen as an energy carrier : | 665.81 HYD 2013 Hydrogen energy and vehicle systems / | 690 HAS 2010 The engineering guide to LEED-new construction : | 696 MEC 2010 Mechanical and electrical equipment for buildings / |
The technologies of hydrogen's energetic utilization have been known for a long time. But aspects of system analysis, energy economics, and ecology that would come into play in introducing it into energy systems nave received much less attention. For those reasons, this book attempts to show the development path of a hydrogen economy, based on assured technological knowledge. One special concern has been to demonstrate, on one hand, how these developments would fit into existing energy supply structures, and, on the other, how they would contribute to further development of the energy system as a whole. With that goal in mind it is necessary to contrast the obvious advantages of hydrogen with the large efforts that would be required for its introduction. This total-systems approach led to a three-part organization of the book that also aids the reader in quickly identifying those parts that are of special interest to him. Section A essentially explains why it is necessary today to think about a new synthetic energy carrier. It also describes the irreplacable and growing role of hydrogen as a chemical raw material, and it explains technologies that al� ready exist for its energetic use or that need further development. An attempt has also been made to prove that hydrogen's safety characteristics indeed per� mit its handling and use as an energy carrier. Hopefully, all this will show that hydrogen, together with electricity, could be the universally employable energy carrier of a future non-fossil energy supply system.
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