This book highlights recent research advancements in the area of microgrids and virtual power plants. Microgrids and virtual power plants are the future of power generation and delivery systems, and there has been significant research interest in this area over the past decade. The key emphasis of this book is on the various modelling, analysis, and management aspects of microgrids and virtual power networks. Interesting topics such as their planning, operation, and technology accommodation are presented in detail. The chapters in the book discuss existing and new modelling approaches, control and management methods, as well as their structures, planning, monitoring, protection, and coordination. This book introduces and covers these topics in a comprehensive and coherent way for professionals and researchers.
Holistic Data-Driven Approach for Sizing and Energy Management of an
Urban Islanded Microgrid.- Probabilistic Microgrid Investment Planning with
Integrated Game-Theoretic Demand Response Management.- Design and Modelling
of Microgrids Operated at Constant Frequency and with a Power Level of
Megawatt.- Design, sizing, and simulation of a DC microgrid for real
implementation.- Microgrid Control Assessment Using Advanced Hardware in the
Loop Technologies.- Stability and control of hybrid AC/DC microgrids.-
Quantifying Transient Dynamics for Microgrids Inverter-based Resources.-
Machine Learning and Internet-of-Things Solutions for Microgrid Resilient
Operation.- Deep learning-based microgrid protection.- Cyber-attacks
Detection and Mitigation in Microgrids.- Peer-to-Peer Trading among Microgrid
Prosumers in Local Energy Markets.- Embedding Regulatory Frameworks in
Microgrids Management.- Virtual Power Plant participation in Australian
wholesale electricity markets.- Interconnected Microgrid Clusters through
Various Provisional Power Exchange Links.- Cooperative and Transactive
Integration of Multiple Microgrids.- Practical Aspects of Pre-Engineering
Design of Clustered Microgrids.- Military Microgrids with Renewable Energy
and 5G Communication.
Farhad Shahnia received his Ph.D. in Electrical Engineering from Queensland University of Technology (Australia). Since 2019, he has been an A/Professor at the School of Engineering and Energy, Murdoch University, Perth, Australia. Prior to that, he was a lecturer at Curtin University (Australia, 20122015), and a senior lecturer at Murdoch University (Australia, 20152019). He has published 7 books, 15 book chapters, and 150+ scholarly journal and conference articles in the areas of microgrids and integration of renewable energy systems to microgrids and electrical distribution networks.
Josep M. Guerrero received the B.S. degree in telecommunications engineering, the M.S. degree in electronics engineering, and the Ph.D. degree in power electronics from the Technical University of Catalonia (Spain) in 1997, 2000, and 2003. Since 2011, he has been a full professor in the Department of Energy Technology, Aalborg University (Denmark). In 2015, he was elevated as an IEEE fellow for his contributions to distributed power systems and microgrids, and in 2019, he became a Villum investigator by the Villum Fonden, which supports the Center for Research on Microgrids at Aalborg University, where he is the centre founder and the director. He has authored 500+ journal articles about microgrids and renewable energy systems.
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