1. 1 Introductionwith the Promotion of Energy Transition Work, the Proportion of New Energy Generation Such as Wind Power, Photovoltaic and High-Voltage Direct Current Transmission in the Power System Increases Year by Year [1], and the Power Grid Evolves into a New Form Containing a High Proportion of Renewable Energy Sources and a High Proportion of Power Electronic Equipment [2]. In this Form, the Power Grid Exhibits Low Short Circuit Ratio Characteristics, and the Grid Voltage Support Capability Becomes Relatively Weak, Which Brings Great Challenges to the Safe and Stable Operation of the Power System. Therefore, for High Ratio New Energy Power Systems, Reactive Power Compensation Devices are Usually Required to Improve Power System Voltage Stability and Enhance Grid Strength [3-5].In Power Systems, the Primary Tools for Dynamic Reactive Power Compensation Encompass Devices;2024

2. Research on calculation method of electric distance for AC and DC power system;2023 IEEE 6th International Conference on Automation, Electronics and Electrical Engineering (AUTEEE);2023-12-15

3. Multi-Objective Optimization for Dynamic VAR Planning based on Power System Partitioning Method;2023 3rd Power System and Green Energy Conference (PSGEC);2023-08

4. Candidate Bus Selection for Dynamic VAR Resource Allocation;Stability‐Constrained Optimization for Modern Power System Operation and Planning;2023-05-19

5. Transmission-distribution long-term volt-var planning considering reactive power support capability of distributed PV;International Journal of Electrical Power & Energy Systems;2022-06