Series-Parallel Converter-Based Microgrids: System-Level Control and Stability

Series-Parallel Converter-Based Microgrids: System-Level Control and Stability is the first book to provide a comprehensive and in-depth introduction to the rapid development of series-parallel converter applications in the microgrid system. It provides an advanced and in-depth introduction into all major system modeling, coordinated control, and stability analysis issues and provides useful methodologies and philosophies for developing new topologies and controls for self-organized decentralized operation of microgrid systems.

Format: Hardback
Length: 372 pages
Publication date: 12 February 2022
Publisher: Springer Nature Switzerland AG

Series-Parallel Converter-Based Microgrids: System-Level Control and Stability is a groundbreaking work that offers a comprehensive and detailed exploration of the rapidly evolving field of series-parallel converter applications in microgrid systems. This comprehensive text provides an advanced and in-depth introduction to key system modeling, coordinated control, and stability analysis challenges, while also offering valuable methodologies and philosophies for designing new topologies and controls for self-organized decentralized operation of microgrid systems.

To facilitate a thorough understanding of each topic, the book begins with theoretical introductions and overviews, accompanied by practical programming examples that enable readers to grasp the concepts and develop microgrid simulation models.

In Chapter 1, the authors provide an overview of series-parallel converter-based microgrids, including their advantages, disadvantages, and applications. They also discuss the basic principles of power electronics and their role in microgrid systems.

Chapter 2 delves into system modeling, covering topics such as modeling of power electronic devices, power flow modeling, and dynamic modeling of microgrid systems. The authors present practical approaches for modeling and simulating microgrid systems using MATLAB/Simulink and PSCAD/EMTDC.

Chapter 3 focuses on coordinated control, discussing the principles of coordinated control and its application in microgrid systems. The authors explore various control strategies, including droop control, voltage control, and frequency control, and discuss their advantages and disadvantages. They also present practical examples of coordinated control implementation using PSCAD/EMTDC.

Chapter 4 explores stability analysis, covering topics such as stability criteria, stability assessment, and stability enhancement techniques. The authors present practical methodologies for analyzing the stability of microgrid systems, including eigenvalue analysis, Lyapunov analysis, and small-signal analysis. They also discuss the use of power system stabilizers and their effectiveness in improving microgrid stability.

Chapter 5 discusses the design and implementation of series-parallel converter-based microgrids, covering topics such as topology selection, converter selection, and control system design. The authors present practical examples of series-parallel converter-based microgrid systems, including grid-connected and islanded microgrids.

Chapter 6 explores the application of series-parallel converter-based microgrids in real-world scenarios, including renewable energy integration, energy storage, and power quality improvement. The authors present case studies and practical examples of series-parallel converter-based microgrid systems in various applications.

Chapter 7 concludes the book by summarizing the key findings and providing recommendations for future research and development in the field of series-parallel converter-based microgrids.

In conclusion, Series-Parallel Converter-Based Microgrids: System-Level Control and Stability is a valuable resource for researchers, engineers, and practitioners interested in the development and operation of series-parallel converter-based microgrid systems. This comprehensive text provides a thorough introduction to key topics, practical methodologies, and philosophies for designing and controlling microgrid systems. With its extensive coverage and practical examples, this book is an essential tool for anyone seeking to advance their knowledge and expertise in this rapidly evolving field.

Weight: 758g
Dimension: 235 x 155 (mm)
ISBN-13: 9783030915100
Edition number: 1st ed. 2022