Andrei G. Ter-Gazarian
Energy Storage for Power Systems
Andrei G. Ter-Gazarian
Energy Storage for Power Systems
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The supply of energy from renewables is not constant, and energy storage is essential in enabling higher shares of renewable energy. This 3rd Edition has been thoroughly revised, reviewing different types of renewables and considering possibilities arising from integrating a combination of different storage technologies into a system.
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The supply of energy from renewables is not constant, and energy storage is essential in enabling higher shares of renewable energy. This 3rd Edition has been thoroughly revised, reviewing different types of renewables and considering possibilities arising from integrating a combination of different storage technologies into a system.
Produktdetails
- Produktdetails
- Energy Engineering
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 335
- Erscheinungstermin: 18. Juni 2020
- Englisch
- Abmessung: 239mm x 163mm x 23mm
- Gewicht: 658g
- ISBN-13: 9781785618673
- ISBN-10: 1785618679
- Artikelnr.: 58038358
- Energy Engineering
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 335
- Erscheinungstermin: 18. Juni 2020
- Englisch
- Abmessung: 239mm x 163mm x 23mm
- Gewicht: 658g
- ISBN-13: 9781785618673
- ISBN-10: 1785618679
- Artikelnr.: 58038358
Andrei Ter-Gazarian (PhD) is a director general of EI-Project Ltd. For more than 20 years he has been working at Moscow Power Engineering Institute (MEI), Russia. He has conducted more than 40 projects concerning generation units and transmission lines system integration, power management, and metrology. He has published more than 75 papers and holds ten patents in the field of energy storage application in electrical power systems. Professor Ter-Gazarian disseminates his ideas delivering lectures in various Russian universities and all over the world.
1. Introduction
2. Part I: The use of energy storage
* Chapter 1: Energy conversion: from primary sources to consumers
* Chapter 2: Energy storage as a structural unit of a power system
* Chapter 3: Trends in power system development
3. Part II: Energy storage techniques
* Chapter 4: Thermal energy storage
* Chapter 5: Flywheel storage
* Chapter 6: Pumped hydro storage
* Chapter 7: Compressed air energy storage
* Chapter 8: Hydrogen and other synthetic fuels
* Chapter 9: Electrochemical energy storage
* Chapter 10: Capacitor bank storage
* Chapter 11: Superconducting magnetic energy storage
* Chapter 12: Energy storage in the power system itself
* Chapter 13: Considerations on the choice of a storage system
4. Part III: Power system considerations for energy storage
* Chapter 14: Integration of energy storage systems
* Chapter 15: Effect of energy storage on transient regimes in the
power system
* Chapter 16: Optimising regimes for energy storage in a power system
5. Part IV: Energy storage and modern power systems
* Chapter 17: Distributed generation, energy storage and smart grid
* Chapter 18: Energy storage and renewable power sources
* Chapter 19: Electric vehicles as distributed energy sources and
storage
* Chapter 20: Conclusion
2. Part I: The use of energy storage
* Chapter 1: Energy conversion: from primary sources to consumers
* Chapter 2: Energy storage as a structural unit of a power system
* Chapter 3: Trends in power system development
3. Part II: Energy storage techniques
* Chapter 4: Thermal energy storage
* Chapter 5: Flywheel storage
* Chapter 6: Pumped hydro storage
* Chapter 7: Compressed air energy storage
* Chapter 8: Hydrogen and other synthetic fuels
* Chapter 9: Electrochemical energy storage
* Chapter 10: Capacitor bank storage
* Chapter 11: Superconducting magnetic energy storage
* Chapter 12: Energy storage in the power system itself
* Chapter 13: Considerations on the choice of a storage system
4. Part III: Power system considerations for energy storage
* Chapter 14: Integration of energy storage systems
* Chapter 15: Effect of energy storage on transient regimes in the
power system
* Chapter 16: Optimising regimes for energy storage in a power system
5. Part IV: Energy storage and modern power systems
* Chapter 17: Distributed generation, energy storage and smart grid
* Chapter 18: Energy storage and renewable power sources
* Chapter 19: Electric vehicles as distributed energy sources and
storage
* Chapter 20: Conclusion
1. Introduction
2. Part I: The use of energy storage
* Chapter 1: Energy conversion: from primary sources to consumers
* Chapter 2: Energy storage as a structural unit of a power system
* Chapter 3: Trends in power system development
3. Part II: Energy storage techniques
* Chapter 4: Thermal energy storage
* Chapter 5: Flywheel storage
* Chapter 6: Pumped hydro storage
* Chapter 7: Compressed air energy storage
* Chapter 8: Hydrogen and other synthetic fuels
* Chapter 9: Electrochemical energy storage
* Chapter 10: Capacitor bank storage
* Chapter 11: Superconducting magnetic energy storage
* Chapter 12: Energy storage in the power system itself
* Chapter 13: Considerations on the choice of a storage system
4. Part III: Power system considerations for energy storage
* Chapter 14: Integration of energy storage systems
* Chapter 15: Effect of energy storage on transient regimes in the
power system
* Chapter 16: Optimising regimes for energy storage in a power system
5. Part IV: Energy storage and modern power systems
* Chapter 17: Distributed generation, energy storage and smart grid
* Chapter 18: Energy storage and renewable power sources
* Chapter 19: Electric vehicles as distributed energy sources and
storage
* Chapter 20: Conclusion
2. Part I: The use of energy storage
* Chapter 1: Energy conversion: from primary sources to consumers
* Chapter 2: Energy storage as a structural unit of a power system
* Chapter 3: Trends in power system development
3. Part II: Energy storage techniques
* Chapter 4: Thermal energy storage
* Chapter 5: Flywheel storage
* Chapter 6: Pumped hydro storage
* Chapter 7: Compressed air energy storage
* Chapter 8: Hydrogen and other synthetic fuels
* Chapter 9: Electrochemical energy storage
* Chapter 10: Capacitor bank storage
* Chapter 11: Superconducting magnetic energy storage
* Chapter 12: Energy storage in the power system itself
* Chapter 13: Considerations on the choice of a storage system
4. Part III: Power system considerations for energy storage
* Chapter 14: Integration of energy storage systems
* Chapter 15: Effect of energy storage on transient regimes in the
power system
* Chapter 16: Optimising regimes for energy storage in a power system
5. Part IV: Energy storage and modern power systems
* Chapter 17: Distributed generation, energy storage and smart grid
* Chapter 18: Energy storage and renewable power sources
* Chapter 19: Electric vehicles as distributed energy sources and
storage
* Chapter 20: Conclusion