Grid-Integration of Power Converters and AC/DC Microgrids: Modeling, Simulation, and Validation is a guidebook to the effective design, simulation, and control of converters for microgrid systems in the dynamic environment of energy transition. Building steadily from essential concepts to advanced applications, this book leads readers through three key components. First, Part I introduces a critical modeling program, the Electrical Transient Analyzer Program (ETAP). Part II breaks down the essential strategies for converter modeling and control, and Part III combines these theoretical and practical aspects into a range of real-world scenarios.
Taking a holistic approach that will appeal to any level of experience, this book empowers readers to grasp fundamental concepts, utilize modern modeling software, and apply skills to build the energy networks of the future.
Part I: Introduction to the Electrical Transient Analyzer Program
1. Overall Description of ETAP Software
2. Functionality Menu of ETAP
3. Detailed Analysis Modules
Part II: Inverter Modeling and Control Strategies
4. Stationary Frame Current Control Evaluations for Three-Phase Grid-Connected Inverters with PVRbased Active Damped LCL Filters
5. Analysis and Design of Improved Weighted Average Current Control Strategy for LCL-Type Grid-Connected Inverters
6. Passivity-Based Stability Analysis of Parallel Single-Phase PWM Inverters
Part III: Hierarchical Control Methods for Microgrids
7. Overview of Renewable Energy and Microgrids
8. Hierarchical Control for DC Microgrids
9. Design and Implementation of Droop Controlled Islanded-mode DC Microgrid
10. Compensation Methods for Traditional Droop Control for DC Microgrid
11. Hierarchical Control Scheme for DC Microgrids and Microgrid Clusters under Dynamic Disturbances
12. PVR-based Active Damping Multi-loop Control Strategy for AC Islanded Microgrids
13. Voltage Unbalance and Harmonics Compensation Strategies in Islanded AC Microgrids
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