Title :
New Challenges in Power System Restoration With Large Scale of Dispersed Generation Insertion
Author :
Pham, Thi Thu Ha ; Bésanger, Yvon ; Hadjsaid, Nouredine
Author_Institution :
Grenoble Electr. Eng. Lab. (G2ELAB), St. Martin d´´Heres
Abstract :
The ability of using dispersed generation (DG) in the distribution system restoration service in the context of smart networks is presented in this paper. The objectives are to reduce the consequences due to a major blackout in terms of the out-of-service load volume, and the duration of restoration process. Based on knapsack problem formulation and network represented graph modeling, a new restoration procedure for distribution network is proposed. An adapted branch-and-bound algorithm is then used to solve the problem. It maximizes the restored loads in distribution by using the DG availability. Simulation results on a study case will be shown to illustrate the proposed procedure and quantify the benefit of using DG in critical situations.
Keywords :
distributed power generation; graph theory; knapsack problems; large-scale systems; power system restoration; tree searching; branch-and-bound algorithm; dispersed generation; distribution system restoration service; knapsack problem formulation; network represented graph modeling; power system restoration; smart networks; Automatic control; Automation; Control systems; Distributed power generation; Laboratories; Large-scale systems; Power generation; Power system management; Power system restoration; Power systems; Blackout; branch-and-bound algorithm; dispersed generation; graph theory; intentional islanding; knapsack problem; restoration process;
Journal_Title :
Power Systems, IEEE Transactions on
DOI :
10.1109/TPWRS.2008.2009477
