Electric vehicles (EV), are being hailed as part of the solution to reducing urban air pollution and noise, and staving off climate change. Their success hinges on the availability and reliability of fast and efficient charging facilities, both stationary and in-motion. These in turn depend on appropriate integration with the grid, load and outage management, and on the mitigation of loads using renewable energy and storage. Charging management to preserve the battery will also play a key role.
This book covers the latest in charging technology; stationary as well as wireless and in-motion. Grid integration, simulations, fast charging, and battery management are also addressed.
The objective of this book is to provide readers with an in-depth knowledge about EV charging infrastructure, and grid integration issues and solutions. The book serves as a reference for researchers in academia and industry, covering almost every aspect of the charging and grid integration of EVs.
Chapter 1: Charging stations and standards
Chapter 2: Grid impact of static and dynamic inductive charging and its mitigation through effective management
Chapter 3: Wireless power transfer in EVs during motion
Chapter 4: Considerations on dynamic inductive charging: optimizing the energy transfer at a high efficiency and experimental implementation
Chapter 5: Converter classification, analysis, and control issues with EV
Chapter 6: Reducing grid dependency of EV charging using renewable and storage systems
Chapter 7: Optimal charge control strategies of EVs for enhancement of battery life and lowering the charging cost
Chapter 8: Energy management strategies in microgrids with EV and wind generators
Chapter 9: Optimal energy management strategies for integrating renewable sources and EVs into microgrids
Chapter 10: Charging infrastructure layout and planning for plug-in electric vehicles
Chapter 11: Power loss and thermal modeling of charger circuit for reliability enhancement of EV charging systems
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