Online dynamic voltage stability assessment method of AC/DC power systems

• Main Authors: Yongbo Wang, Kuan Li, Guohui Zhang, Jianjun Su, Jiping Xie, Jialu Li
• Format: Article
• Language: English
• Published: Wiley 2018-10-01
• Series: The Journal of Engineering
• Subjects: power transmission control; HVDC power transmission; reactive power; power system dynamic stability; online dynamic voltage stability assessment method; equivalent AC voltage source; DC transmission systems; AC-DC power system; reactive power absorption; conventional line commutated converter–high-voltage direct current transmission systems; internal impedance; control mode model; nodal equivalent method; voltage stability index
• Online Access: https://digital-library.theiet.org/content/journals/10.1049/joe.2018.8780

The reactive power absorption of conventional line commutated converter–high-voltage direct current transmission systems challenges on the voltage stability of AC/DC power systems. Many online dynamic voltage stability assessment approaches have been put forward to AC power systems, but the impact of DC transmissions is seldom taken into account for AC/DC power systems. In this study, an online dynamic voltage stability assessment method of AC/DC power systems is proposed. The proposed method models the converter as an equivalent AC voltage source in series with the internal impedance by utilising the control mode model of DC transmission systems and the measured data of the converter bus. The equivalent AC voltage source can identify the dynamic of DC transmissions. Then the AC/DC power system can be modelled by the equivalent AC power system. Based on the nodal equivalent method, the proposed method establishes a voltage stability index of the equivalent AC power systems for the dynamic voltage stability assessment of AC/DC power systems. The simulation demonstrated the effectiveness of the proposed method.