Grid Connected Converters: Modeling, Stability and Control discusses the foundations and core applications of this diverse field, from structure, modeling and dynamic equivalencing through power and microgrids dynamics and stability, before moving on to controller synthesis methodologies for a powerful range of applications. The work opens with physical constraints and engineering aspects of advanced control schemes. Robust and adaptive control strategies are evaluated using real-time simulation and experimental studies. Once foundations have been established, the work goes on to address new…mehr
Grid Connected Converters: Modeling, Stability and Control discusses the foundations and core applications of this diverse field, from structure, modeling and dynamic equivalencing through power and microgrids dynamics and stability, before moving on to controller synthesis methodologies for a powerful range of applications. The work opens with physical constraints and engineering aspects of advanced control schemes. Robust and adaptive control strategies are evaluated using real-time simulation and experimental studies. Once foundations have been established, the work goes on to address new technical challenges such as virtual synchronous generators and synergic inertia emulation in response to low inertia challenges in modern power grids.
The book also addresses advanced systematic control synthesis methodologies to enhance system stability and dynamic performance in the presence of uncertainties, practical constraints and cyberattacks.
Hassan Bevrani received PhD degree in electrical engineering from Osaka University (Japan) in 2004. He is a professor and the Program Leader of the Smart/Micro Grids Research Center (SMGRC) at the University of Kurdistan. Over the years, he has worked with Osaka University, Kyushu Institute of Technology, Nagoya University, Kumamoto University (Japan), Queensland University of Technology (Australia), Centrale Lille (France), and Technical University of Berlin (Germany). Currently, he is a visiting professor at the Doshisha University and an experienced research fellow of AvH Foundation (Germany). He is the author of 6 international books, 15 book chapters, and more than 300 journal/conference papers. He has been the guest editor of 5 volumes of Elsevier Energy Procedia and Energy Reports journals. His current research interests include stability analysis and control of renewable integrated power grids, smart grids, microgrids, flexible controlled power converters, and Intelligent/robust control applications in the power electric industry.
Inhaltsangabe
Part I: Concepts, Fundamentals, Modeling, and Dynamics Analysis 1. An Introduction to Grid-Connected Converters 2. Grid-Connected Converters: Configurations and Fundamentals 3. Dynamic Performance and Modeling of Grid-Connected Converters 4. Grid-Connected Converters: Stability Assessment and Sensitivity Analysis
PART II: Control Synthesis for Stabilising and Performance Enhancement 5. Control Structure of Grid-Connected Converters 6. Stabilizing and Performance improvement of Grid-Connected Converters 7. Robust and Intelligent Control Synthesis for Grid-Connected Converters 8. Converter-Based Grid Dynamics Shaping
Part I: Concepts, Fundamentals, Modeling, and Dynamics Analysis 1. An Introduction to Grid-Connected Converters 2. Grid-Connected Converters: Configurations and Fundamentals 3. Dynamic Performance and Modeling of Grid-Connected Converters 4. Grid-Connected Converters: Stability Assessment and Sensitivity Analysis
PART II: Control Synthesis for Stabilising and Performance Enhancement 5. Control Structure of Grid-Connected Converters 6. Stabilizing and Performance improvement of Grid-Connected Converters 7. Robust and Intelligent Control Synthesis for Grid-Connected Converters 8. Converter-Based Grid Dynamics Shaping
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