Title :
Robust Optimization for Bidirectional Dispatch Coordination of Large-Scale V2G
Author :
Xiaoqing Bai ; Wei Qiao
Author_Institution :
Dept. of Electr. & Comput. EngineeringPower & Energy Syst. Lab., Univ. of Nebraska-Lincoln, Lincoln, NE, USA
Abstract :
This paper proposes a robust optimization (RO) model for bidirectional dispatch coordination of large-scale plug-in electric vehicles (PEVs) in a power grid in which the PEVs are aggregated to manage. The PEV aggregators are considered as a type of dispatchable demand response and energy storage resource with stochastic behaviors, and can supply load or provide ancillary services such as regulation reserve to the grid. The proposed RO model is then reformulated as a mixed-integer quadratic programming model, which can be solved efficiently. Computer simulations are performed for a power grid with ten generators and three PEV aggregators to validate the economic benefit of the RO model for bidirectional dispatch coordination of the PEVs and the robustness of the RO model to the uncertainty of the PEVs´ stochastic mobility behaviors.
Keywords :
electric vehicles; energy storage; integer programming; load dispatching; power grids; power system economics; quadratic programming; stochastic programming; PEV bidirectional dispatch coordination; RO; dispatchable demand response; energy storage resource; large-scale V2G bidirectional dispatch coordination; large-scale plug-in electric vehicle bidirectional dispatch coordination; mixed-integer quadratic programming model; power grid; robust optimization; stochastic behavior; Computational modeling; Generators; Load modeling; Power grids; Robustness; System-on-chip; Uncertainty; Bidirectional dispatch; coordination; plug-in electric vehicle (PEV); robust optimization (RO); smart grid; vehicle to grid (V2G);
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2015.2396065
