Title :
Optimal PMU placement for power system restoration
Author :
Golshani, Amir ; Wei Sun ; Qun Zhou
Author_Institution :
Electr. Eng. & Comput. Sci. Dept., South Dakota State Univ., Brookings, SD, USA
Abstract :
PMU placement is important to achieve full system observability. Traditional PMU placement algorithms only work for systems in normal condition. During power system restoration, system topology and condition change in each step. Synchrophsors can help to improve the reliability and efficiency of restoration strategy. However, the original PMU placement cannot guarantee system observability in each restoration step. In this paper, a new optimal PMU placement is formulated for single and multiple islands restoration. With the aid of PMU, system operator can obtain real-time measurements of voltage (magnitude and angle) and frequency from different islands and perform the parallel restoration precisely. The proposed algorithm is tested in modified IEEE 14-bus system. Simulation results demonstrate the effectiveness of proposed model and the advantage of PMU-aided parallel restoration.
Keywords :
distributed power generation; phasor measurement; power system restoration; IEEE 14-bus system; multiple island restoration; optimal PMU placement; phasor measurement unit; power system restoration; real-time measurements; single island restoration; synchrophsors; system topology; Generators; Observability; Phasor measurement units; Power system restoration; Power system stability; Synchronization; Voltage measurement; Integer linear programming; observability; optimal placement; parallel restoration; phasor measurement unit;
Conference_Titel :
Power Systems Conference (PSC), 2015 Clemson University
Conference_Location :
Clemson, SC
DOI :
10.1109/PSC.2015.7101698
