期刊
IEEE TRANSACTIONS ON POWER SYSTEMS
卷 37, 期 3, 页码 1893-1903出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TPWRS.2021.3121316
关键词
DC distribution systems; Stability criteria; Power system stability; Network topology; Voltage control; Stochastic processes; AC-DC power converters; DC distribution system; electric vehicle charging stations; instability risk estimation; stability analysis
资金
- Engineering Special Team of Sichuan University on New Energy Power Systems
- Natural Science Foundation of China [52077144, TPWRS-02074-2020]
This study establishes a linearized model of a DC distribution system, considering the charging and discharging states. The research shows that if the EVCSs are in the charging state, the DC distribution system is more likely to be unstable, and the system stability is the worst when all the EVCSs are at maximum charging state. Furthermore, a method to quickly evaluate the stability of the DC distribution system is proposed.
A DC distribution system integrated with electric vehicle charging stations (EVCSs) is typically constructed to satisfy the large power exchange demand of electric vehicles (EVs). However, the stochastic operating state of the EVCSs results in difficulties in the stability analysis of the DC distribution system. In this study, a linearized model of the DC distribution system connected with multiple EVCSs is established, which considers the charging and the discharging states of the EVCSs. Based on the similarity transformation, this study theoretically verifies the generalized conclusion that a DC distribution system has a higher possibility of instability if the EVCSs are in the charging rather than the discharging state, and that the system stability is the worst if all the EVCSs operate at the maximum charging state. Moreover, a method to quickly evaluate the stability region of the DC distribution system is proposed. It can provide a numerical instability risk estimation of a complex DC distribution system considering all the possible states of the EVCSs. Lastly, the conclusions are validated by two SIMULINK cases, and the application of the numerical instability risk estimation to the DC distribution system is demonstrated.
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