This book provides a basis for full integration of electric vehicles into the smart grid, through the use of ICT tools. It looks at transport and energy system modelling, simulation and optimisation processes; vehicle on-line optimal control, estimation and prediction; energy system strategic planning; and services such as smart charging.
This book provides a basis for full integration of electric vehicles into the smart grid, through the use of ICT tools. It looks at transport and energy system modelling, simulation and optimisation processes; vehicle on-line optimal control, estimation and prediction; energy system strategic planning; and services such as smart charging.
* Chapter 1: Advanced mobility communication * Chapter 2: Grid integration and management of EVs through machine-to-machine communication * Chapter 3: Electrical vehicles charging and discharging scheduling for the cloud-based energy management service * Chapter 4: Multi-criteria optimization of electric vehicle fleet charging and discharging schedule for secondary frequency control * Chapter 5: Power-demand management in a smart grid using electric vehicles * Chapter 6: Energy management of a small-size electric energy system with electric vehicles, flexible demands, and renewable generating units * Chapter 7: Peer-to-peer energy market between electric vehicles * Chapter 8: Dispatch of vehicle-to-grid battery storage using an analytic hierarchy process * Chapter 9: Electric vehicles as distributed energy storage for local energy management * Chapter 10: Contribution of electric vehicles to power system ancillary services beyond distributed energy storage * Chapter 11: Electric vehicles for renewable energy integration in isolated power systems * Chapter 12: A solar- and wind-powered charging station for electric buses based on a backup batteries concept * Chapter 13: Deploying stochastic coordination of electric vehicles for V2G services with wind * Chapter 14: Optimal location and charging of electric vehicle with wind penetration * Chapter 15: Optimal coordination of vehicle-to-grid batteries and renewable generators in a distribution system
* Chapter 1: Advanced mobility communication * Chapter 2: Grid integration and management of EVs through machine-to-machine communication * Chapter 3: Electrical vehicles charging and discharging scheduling for the cloud-based energy management service * Chapter 4: Multi-criteria optimization of electric vehicle fleet charging and discharging schedule for secondary frequency control * Chapter 5: Power-demand management in a smart grid using electric vehicles * Chapter 6: Energy management of a small-size electric energy system with electric vehicles, flexible demands, and renewable generating units * Chapter 7: Peer-to-peer energy market between electric vehicles * Chapter 8: Dispatch of vehicle-to-grid battery storage using an analytic hierarchy process * Chapter 9: Electric vehicles as distributed energy storage for local energy management * Chapter 10: Contribution of electric vehicles to power system ancillary services beyond distributed energy storage * Chapter 11: Electric vehicles for renewable energy integration in isolated power systems * Chapter 12: A solar- and wind-powered charging station for electric buses based on a backup batteries concept * Chapter 13: Deploying stochastic coordination of electric vehicles for V2G services with wind * Chapter 14: Optimal location and charging of electric vehicle with wind penetration * Chapter 15: Optimal coordination of vehicle-to-grid batteries and renewable generators in a distribution system
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