Effective steady-state security regions of power systems considering voltage magnitude

• Published in: IOP conference series. Earth and environmental science Vol. 354; no. 1; pp. 12111 - 12119
• Main Authors: Zhou, Y, Yang, X L, Yang, M, Zhu, Y, Wang, C, Bo, Y F, Du, P J
• Format: Journal Article
• Language: English
• Published: Bristol IOP Publishing 01.10.2019
• Subjects: Automatic control; Computational efficiency; Computer applications; Computing time; Economics; Electric potential; Linear programming; Optimization; Power flow; Reactive power; Renewable energy; Security; Steady state; System effectiveness; Voltage
• ISSN: 1755-1307; 1755-1315
• DOI: 10.1088/1755-1315/354/1/012111

With high-level variable renewable energy integrating into power systems, the uncertainty significant challenges to the real-time dispatch (RTD). Meanwhile, the influence of voltage magnitude and reactive power on RTD always were ignored. Based on effective steady-state security regions of power systems and linear power flow model, a real-time dispatching method considering voltage magnitude and reactive power is proposed in this paper. This model has two goals, one is the security goal, the other is the economic goal, and priority of security objectives is higher than economy. Unlike previous real-time dispatch methods, all of the operation base point, reactive power output and participation factors of automatic generation control (AGC) generators are chosen as decision variables in the model. In order to ensure computational efficiency, the model is finally transformed into a deterministic linear programming (LP) problem by robust optimization and other methods. The accuracy and computational efficiency of the method are illustrated by modified IEEE 9-bus system and IEEE 118-bus system.