Home demand side management integrated with electric vehicles and renewable energy sources: Fid-Bau Portal

Home demand side management integrated with electric vehicles and renewable energy sources

Mesarić, Petra / Krajcar, Slavko

Highlights • The mathematical model confirms that EVs can be used as energy storage system. • The consumption of household appliances and EVs can be postponed. • The solar energy is buffered in order to enable stabile microgrid systems. • In microgrid the dependence on the electric grid can be enormously decreased. • Charging of EVs can be 100% provided of renewable energy sources.

Abstract The microgrid systems will be vital for establishing future smart grid, so important focus will be on their intermittency and availability of energy storage systems. Since in the near future, the number of electric vehicles (EV) will grow considerably, they represent appreciable opportunity as dispatchable energy sources, if battery can be considered as potential energy storage system and connected to grid while parked. Accordingly, foster integration of renewable energy sources and EVs integrated with proper home demand side management can contribute to microgrid stability and decrease grid dependence. The model of a small solar powered buildings is based on the role of active smart grid users referred as energy citizens, whose home demand side management is possible to reduce or postpone demand, due to categorization of home appliances and controlled charging of EVs. The daily load curve will trace daily energy production, cooperating with energy storage system. We develop a mixed-integer program to reach maximum amount of renewable energy sources, scheduling optimal power and operation time for EVs and appliances. Simulation results for different scenarios with different engagement of home demand side management have been presented to demonstrate and verify the effectiveness of the proposed technique.