Microgrid Cyberphysical Systems: Renewable Energy and Plug-in Vehicle Integration�outlines the fundamental concepts on microgrid system design and control in a cyberphysical framework, focusing on the integration of renewables and EVs into microgrids. Including operational, control and management perspectives, the volume aims to optimize the reliability and economic performance of microgrids, focusing on power quality, storage and voltage and frequency control. The work encompasses generation, transmission, protection and load management under uncertainty and discusses critical drivers in robustness, uncertainty and sustainability management. Focusing on applied implementations, chapters are supported by detailed methods, heavy figurative explication, and comparative and integrative analysis.
Case studies range across chapters. In addition, chapters are supported by representative experimental or test bed validations of proposed algorithms or methods which can be directly applied to reader problems.
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Table of Contents
1. Smart Grid as a Cyber Physical System2. Integration of Renewables and Plug-in Electric Vehicles to Microgrid
3. Forecasting of solar irradiance to address intermittency and variability nature of Renewable energy
4. Control of PV and EV connected Smart Grid
5. Control scheme of Charging Control of Plug-in Electric Vehicles and Effects on forecasting electricity price
6. Power Management of PV and EV connected smart Grid
7. Advanced Hybrid Energy Storage Systems (HESS) with Solid State Transformer (SST) interface for improving reliability of Microgrid
8. Active Power Filtering in microgrid
9. Protection schemes in Microgrid
10. Networked Control and Internet of Things (IoT) applications to Microgrid
