As an advanced guide to the methods and best practices in use in migrating to smart energy grids, this book details the engineering challenges of smart energy grid design and operation by focusing on advanced methods and practices for designing different components and integrating them into the grid
Chapter 1: Introduction
Chapter 2: Smart energy grid infrastructures and interconnected
micro energy grids
Chapter 3: Optimal sizing and placement of smart-grid-enabling
technologies for maximizing renewable integration
Chapter 4: Scheduling interconnected micro energy grids with
multiple fuel options
Chapter 5: Safety design of resilient micro energy grids
Chapter 6: Regional transportation with smart energy grids and
hybrid fuel options
Chapter 7: High-performance large microgrid
Chapter 8: Design and control of V2G
Chapter 9: Energy storage integration within interconnected micro
energy grids
Chapter 10: FACTS-based high-performance AC/DC microgrids
Chapter 11: Internet of things (IoT) for smart energy systems
Chapter 12: Design and simulation issues for secure power networks
as resilient smart grid infrastructure
Chapter 13: Applications of energy semantic networks
Chapter 14: Advanced optimization methods of micro energy grids
Chapter 15: Risk-based lifecycle assessment of hybrid
transportation infrastructures as integrated with smart energy
grids
Chapter 16: Data centers for smart energy grids
Chapter 17: End-to-end-authentication in smart grid control
Chapter 18: SCADA and smart energy grid control automation
Hossam A.Gabbar, PhD, Professor, Director of Energy Safety and Control Lab, Faculty of Energy Systems and Nuclear Science, University of Ontario Institute of Technology, Ontario. Dr. A. Gabbar is the author of 210 publications in the area of smart energy grids, safety, protection, and control, and has been a speaker in national and international events in smart energy grids, and general chair of the annual IEEE Conference on Smart Energy Grid Engineering (SEGE).
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