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DC distribution systems and microgrids /
The book is divided into three parts - control circuits, power architectures, and real-world applications. The first part comprises seven chapters, which provides a comprehensive overview of different control approaches focused both on local control functions of individual converters. Building upon...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | , , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
London, United Kingdom :
The Institution of Engineering and Technology,
2018.
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| Colección: | IET energy engineering series ;
115. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Intro; Contents; About the editors; Preface; 1: DC microgrid control principles
- hierarchical control diagram (Linglin Chen, Tao Yang, Fei Gao, Serhiy Bozhko, and Patrick Wheeler); 1.1 Introduction; 1.2 The hierarchical control for DC MGs; 1.3 Primary control; 1.3.1 Basics of droop control; 1.3.2 Power sharing errors; 1.3.3 Droop strategies; 1.3.4 Dynamic power sharing; 1.3.5 Interfaces to upper levels; 1.4 Secondary control; 1.4.1 Centralized approach; 1.4.2 Distributed approach; 1.5 Tertiary control; 1.6 Summary; References
- 2: Distributed and decentralized control of dc microgrids (Saeed Peyghami, Hossein Mokhtari, and Frede Blaabjerg)2.1 Introduction; 2.2 Decentralized approaches; 2.2.1 Mode-adaptive (autonomous) droop control; 2.2.2 Nonlinear droop control; 2.2.3 Frequency droop control; 2.3 Distributed approaches; 2.3.1 Fully communicated control; 2.3.2 Sparse communicated (consensus-based) control; 2.3.3 Sparse communicated control using current information; 2.4 Conclusion and future study; References; 3: Stability analysis and stabilization of DC microgrids (Alexis Kwasinski)
- 3.1 Dynamic characteristics of DC microgrids3.2 DC microgrids stability analysis; 3.3 Passive approaches for stabilization of DC microgrids; 3.4 Control strategies for stable DC microgrids operation; 3.5 Operation of rectifiers with instantaneous constant power loads; 3.6 Summary; References; 4: Coordinated protection of DC microgrids (Jae-Do Park, Md Habib Ullah, and Bhanu Babaiahgari); 4.1 Introduction; 4.2 Faults in DC power systems; 4.2.1 Fault types and behavior; 4.2.2 Fault current analysis; 4.2.3 Faults in various bus configurations; 4.3 Coordinated protection techniques
- 4.3.1 AC side protection4.3.2 DC side protection; 4.3.3 Applications; 4.4 Summary; 4.5 Acknowledgment; References; 5: Energy management systems for dc microgrids (Amjad Anvari-Moghaddam, Tomislav Dragiˇcević, and Marko Delimar); 5.1 Introduction; 5.2 DC microgrid operation and control fundamentals; 5.2.1 Power/energy management schemes; 5.2.2 Control schemes; 5.3 Interfacing converter control strategies for power/energy management purposes; 5.3.1 Voltage control/grid-forming mode; 5.3.2 Current control/grid-following mode; 5.4 Illustrative example; 5.5 Conclusions; References
- 6: Control of solid-state transformer-enabled DC microgrids (Xu She, Alex Huang, Xunwei Yu, and Yizhe Xu)6.1 Introduction; 6.2 Solid-state transformer-based microgrid: architecture and benefits; 6.3 Centralized power management of solid-state transformer-based DC microgrid; 6.3.1 Power management strategy; 6.3.2 Case study; 6.3.3 Summary; 6.4 Hierarchical power management of solid-state transformer-enabled DC microgrid; 6.4.1 Power management strategy; 6.4.2 Case study of a small-scale DC microgrid; 6.4.3 Summary