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Comparison of Intelligent Charging Algorithms for Electric Vehicles to Reduce Peak Load and Demand Variability in a Distribution Grid  

Mets, Kevin (Department of Information Technology, IBCN at Ghent University)
D'hulst, Reinhilde (VITO)
Develder, Chris (Department of Information Technology, IBCN at Ghent University)
Publication Information
Journal of Communications and Networks / v.14, no.6, 2012 , pp. 672-681 More about this Journal
Abstract
A potential breakthrough of the electrification of the vehicle fleet will incur a steep rise in the load on the electrical power grid. To avoid huge grid investments, coordinated charging of those vehicles is a must. In this paper, we assess algorithms to schedule charging of plug-in (hybrid) electric vehicles as to minimize the additional peak load they might cause. We first introduce two approaches, one based on a classical optimization approach using quadratic programming, and a second one, market based coordination, which is a multi-agent system that uses bidding on a virtual market to reach an equilibrium price that matches demand and supply. We benchmark these two methods against each other, as well as to a baseline scenario of uncontrolled charging. Our simulation results covering a residential area with 63 households show that controlled charging reduces peak load, load variability, and deviations from the nominal grid voltage.
Keywords
Demand side management; plug-in (hybrid) electric vehicles; smart charging; smart grid;
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