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Steady State and Time Dependent Compressed Air Energy Storage Model Validated with Huntorf Operational Data and Investigation of Hydrogen Options for a Sustainable Energy Supply
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Göttingen :
Cuvillier Verlag,
2020.
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| Colección: | Schriftenreihe des Energie-Forschungszentrums Niedersachsen (EFZN)
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro
- Abstract
- Zusammenfassung
- Acknowledgements
- List of Figures
- List of Tables
- List of Abbreviations
- List of Symbols
- Chapter 1 Storage of Renewable Energy -Introduction and Scope
- 1.1 Motivation and Objectives
- 1.2 Previous Publications
- 1.3 Scope of this Thesis
- Chapter 2 Compressed Air Energy Storage -Basic Principles
- 2.1 TechnicalWork
- 2.2 Exergy
- 2.3 Efficiency
- Chapter 3 Steady State Thermodynamics of CAES
- 3.1 Huntorf Plant
- 3.2 McIntosh Plant
- 3.3 Next Generation CAES
- 3.4 Comparison and Results
- 3.5 Conclusions
- Chapter 4 Time Dependent Thermodynamicsof CAES
- 4.1 Compressed Air Storage Cavern (CAS)
- 4.2 Compressor (C) and Turbine (T) in Unsteady Conditions
- 4.3 Thermal Energy Storage (TES)
- Chapter 5 Hydrogen Options for CAES, Huntorf Case Study
- 5.1 Hydrogen Production
- 5.2 Hydrogen Storage in Salt Caverns
- 5.3 Hydrogen Combustion as Natural Gas Substitute
- 5.4 Discussion
- Chapter 6 Economics of CAES
- Chapter 7Case Study of 100 % RenewableLower Saxony with CAES
- 7.1 100 % Renewable Energy Lower Saxony
- 7.2 Next Generation CAES Concept for Renewable Energies
- 7.3 Results
- Chapter 8 Conclusions
- Appendix A Measured Data of the HuntorfCAES Plant
- A.1 Charging
- A.2 Discharging
- Bibliography