| Description |
1 online resource (241 pages) |
| Contents |
Cover; Half-Title Page; Title Page; Copyright Page; Contents; Foreword; Introduction; I.1. Subject matter; I.2. Chapter breakdown; 1. Fuel Cells: the Path Towards Hydrogen Revolution; 1.1. Introduction; 1.2. Energy: a global view; 1.2.1. An obsolete energy model; 1.2.2. Solutions for the energy mix decarbonization; 1.3. Hydrogen vector; 1.3.1. Hydrogen production; 1.4. Fuel cell and its applications; 1.4.1. Brief history; 1.4.2. Fuel cell and its revival; 1.4.3. Applications of fuel cells; 1.5. Conclusion; 2. From FC to System; 2.1. Introduction |
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2.2. Fuel cell technologies for transport and stationary applications2.2.1. Presentation of various technologies; 2.2.2. Operating principle; 2.2.3. Comparison of technologies; 2.3. System approach; 2.3.1. Auxiliary circuits; 2.3.2. System architecture; 2.4. Limits of fuel cell systems; 2.5. Conclusion; 3. Hybridization of Generators; 3.1. Introduction; 3.2. Hybridization of electric power sources; 3.2.1. Hybridization for transport-oriented systems; 3.2.2. Energy management in hybrid systems; 3.3. Hybridization of fuel cell generators |
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3.3.1. Wavelet transform application to energy management3.3.2. Application of ARIMA models for energy management; 3.3.3. Applications of neural networks for energy management; 3.3.4. Comparison of adaptive NARNN and ARIMA; 3.4. Hybridization of other generators; 3.4.1. Topology of the studied system and its modeling; 3.4.2. Energy management strategy; 3.4.3. Type-2 fuzzy logic and optimization of the fuzzy controller; 3.4.4. Simulation results; 3.5. Conclusion; 4. Diagnostics and Prognostics of Fuel Cell Generators; 4.1. Introduction; 4.2. Degradation phenomena in a fuel cell and its system |
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4.2.1. Reversible or irreversible degradations?4.2.2. Degradations of FC components; 4.2.3. Degradations depending on origin; 4.2.4. Failures of the FC system; 4.3. Diagnostics; 4.3.1. Diagnostic methods applicable to fuel cells; 4.3.2. Diagnostic methods developed; 4.3.3. Results obtained with k-NN; 4.3.4. Results obtained with the wavelet transform; 4.3.5. Results obtained with other diagnostic methods; 4.4. Prognostics of fuel cells; 4.4.1. From prognostics to PHM; 4.4.2. Prognostic methods developed; 4.4.3. Results obtained with ANFIS; 4.4.4. Results obtained with ESNs [MOR 15a] |
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4.5. ConclusionSummary and Conclusion; References; Index; Other titles from iSTE in Energy; EULA |
| Summary |
Hydrogen is the most abundant element in the universe. It has a place in the energy mix of the future, especially regarding fuel cells (FCs). This book is an investigation into FCs. Prominence is given to the subject of PEMFCs (proton exchange membrane fuel cells) as they offer interesting perspectives on transport and stationary applications. This being said, a number of technological and scientific obstacles remain to be overcome before an industrial level of development can be reached |
| Notes |
Print version record |
| Subject |
Proton exchange membrane fuel cells.
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Proton exchange membrane fuel cells
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| Form |
Electronic book
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| ISBN |
9781119563440 |
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1119563445 |
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9781119563433 |
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1119563437 |
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