Electric Vehicles Aggregation in Market Environment: A Stochastic Grid-to-Vehicle and Vehicle-to-Grid Management
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Technological Innovation for Resilient Systems, SPRINGER, Cham, Switzerland
Abstract
This paper addresses a development of a support management system
for a power system aggregator managing a fleet of electric vehicles and
bidding in a day-ahead electricity market. The support management system is
modeled by stochastic mixed integer linear programming approach. The charge
and discharge of the batteries of the fleet of vehicles are brought about to a
convenient contribution for the maximization of the expected profit of the
aggregator. The optimization takes into consideration the profiles of usage of the
vehicle owners and the battery degradation of the vehicles. The vehicles are
assumed as bidirectional energy flow units: allowing grid-to-vehicle or vehicleto-
grid operation modes. A strong interaction of information exchange is
assumed between the aggregator and vehicle owners. A set of scenarios is
created by a scenario generation method based on the Kernel Density Estimation
technique and are subjected to a reduction by a K-means clustering technique.
A case study with data of Electricity Market of Iberian Peninsula is presented to
drive conclusion about the support management system developed.