Electricity demand is expected to grow in the upcoming years due to the electrification of transport, which will likely result in an increase in electricity peak demand when charging at home; this would not represent a problem for the electric vehicle (EV) owner but could potentially destabilise the grid. This work has compared the use of stationery and vehicle-to-home (V2H) energy storage systems to minimise the electricity bill for the household consumers. The impact of using different electricity tariffs and the peak demand derived by this was also investigated. Real-world data was used to model the availability of the EVs to provide V2H during the day. Constraints to guarantee adequate charging of the EV to ensure the ability to provide...
Electricity storage systems, whether electric vehicles or stationary battery storage systems, stabi...
Increased penetration of residential photovoltaic (PV) systems over the past decade has led to an ab...
This paper assumes a smart grid framework where the driving patterns for electric vehicles are known...
Electric vehicle (EV) can be applied to discharge power back to the grid, which is called vehicle-to...
By 2030, the number of electric vehicles (EVs) on the road is expected to increase to 11 million in ...
Vehicle-to-grid (V2G) from electric vehicles (EVs) represents an opportunity to provide transitionin...
Vehicle-to-grid (V2G) from electric vehicles (EVs) represents an opportunity to provide transitionin...
Vehicle-to-grid (V2G) from electric vehicles (EVs) represents an opportunity to provide transitionin...
Higher battery storage capacity in electric vehicles (EV) can potentially serve two purposes: First,...
Increasing residential renewable energy generation and the consumers’ demand for reducing their elec...
© 2018 IEEE. Electric vehicle (EV) can be applied to discharge power back to the grid, which is call...
Electric vehicles (EVs) tend to increase peak power for residences in the evening when house owners ...
The rapid increase of electric vehicles (EVs) would lead to a rise in load demand on power grids but...
Number of electric vehicles (EV) is increasing all over the world due to their driving performances ...
This study analysis the potential for electric vehicles (EVs) to contribute with power and energy to...
Electricity storage systems, whether electric vehicles or stationary battery storage systems, stabi...
Increased penetration of residential photovoltaic (PV) systems over the past decade has led to an ab...
This paper assumes a smart grid framework where the driving patterns for electric vehicles are known...
Electric vehicle (EV) can be applied to discharge power back to the grid, which is called vehicle-to...
By 2030, the number of electric vehicles (EVs) on the road is expected to increase to 11 million in ...
Vehicle-to-grid (V2G) from electric vehicles (EVs) represents an opportunity to provide transitionin...
Vehicle-to-grid (V2G) from electric vehicles (EVs) represents an opportunity to provide transitionin...
Vehicle-to-grid (V2G) from electric vehicles (EVs) represents an opportunity to provide transitionin...
Higher battery storage capacity in electric vehicles (EV) can potentially serve two purposes: First,...
Increasing residential renewable energy generation and the consumers’ demand for reducing their elec...
© 2018 IEEE. Electric vehicle (EV) can be applied to discharge power back to the grid, which is call...
Electric vehicles (EVs) tend to increase peak power for residences in the evening when house owners ...
The rapid increase of electric vehicles (EVs) would lead to a rise in load demand on power grids but...
Number of electric vehicles (EV) is increasing all over the world due to their driving performances ...
This study analysis the potential for electric vehicles (EVs) to contribute with power and energy to...
Electricity storage systems, whether electric vehicles or stationary battery storage systems, stabi...
Increased penetration of residential photovoltaic (PV) systems over the past decade has led to an ab...
This paper assumes a smart grid framework where the driving patterns for electric vehicles are known...