Title :
Optimal Coordination and Scheduling of Demand Response via Monetary Incentives
Author :
Sarker, Mushfiqur R. ; Ortega-Vazquez, Miguel A. ; Kirschen, Daniel S.
Author_Institution :
Univ. of Washington, Seattle, WA, USA
Abstract :
Without demand-side management, an increase in the number of electric vehicles (EVs) could result in overloads on distribution feeders. Aggregators could optimally manage the charging/discharging of the EVs, to not only maximize the consumers´ welfare in response to real-time prices and accommodate their needs for transportation, but also to keep the distribution network within its operating limits. This paper proposes a decentralized framework in which the aggregator seeks to maximize its profits while the consumers minimize their costs in response to time-varying prices, and additional incentives provided to mitigate potential overloads in the distribution system. Test results show that a large penetration of EV penetration can then be managed without violating the capacity of the distribution network.
Keywords :
cost reduction; demand side management; electric vehicles; minimax techniques; power distribution economics; power generation scheduling; profitability; EV penetration; cost minimization; decentralized framework; demand response; demand side management; distribution feeders; distribution network; distribution system; electric vehicles; monetary incentives; optimal coordination; optimal scheduling; potential overload mitigation; profit maximisation; time-varying price; Economics; Electricity; Home appliances; Indexes; Load management; Optimization; Schedules; Aggregator; demand response; demand-side management (DSM); electric vehicles (EVs); incentives;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2014.2375067
