Title :
Direct Load Control Decision Model for Aggregated EV Charging Points
Author :
Sanchez-Martin, Pedro ; Sanchez, Gustavo ; Morales-Espana, German
Author_Institution :
Univ. Pontificia Comillas, Madrid, Spain
Abstract :
This paper details a decision model to implement direct load control (DLC) on battery charging processes at electric vehicle charging points located at parking areas. The programming model combines optimally three types of energy management decisions: grid-to-vehicle charges, vehicle-to-grid discharges, and novel vehicle-to-vehicle energy exchanges. The objective function maximizes the net energy supplied to batteries minimizing simultaneously the global energy cost. A 50-plug-in vehicle park case is analyzed for three possible mobility patterns: household, commercial and mixed. Outputs from the DLC model are compared with the ones using a dumb charging policy from the service quality and economic points of view. Finally, a sensitivity analysis has been done to evaluate the economic impact of the Depth of Discharge condition to preserve battery lifecycle of electric vehicles.
Keywords :
battery powered vehicles; energy management systems; quality of service; sensitivity analysis; 50-plug-in vehicle park; DLC model; aggregated EV charging points; battery charging processes; battery lifecycle preservation; depth of discharge condition; direct load control decision model; dumb charging policy; economic points; electric vehicle charging points; energy management decisions; global energy cost; grid-to-vehicle charges; mobility patterns; programming model; sensitivity analysis; service quality; vehicle-to-grid discharges; vehicle-to-vehicle energy exchanges; Batteries; Discharges; Economics; Gold; Load flow control; System-on-a-chip; Vehicles; Charging points; direct load control (DLC); electric vehicle batteries; grid to vehicle; vehicle to grid; vehicle to vehicle;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2011.2180546
