Reactive Power Dispatch Method for Wind Farms Based on Dynamic Weight Adjustment of Electrical Distance and Reactive Power Capacity

To solve the problem of terminal voltage of wind turbines (WT) exceeding the limit caused by reactive power allocation in wind farms, this paper proposes a reactive power allocation method based on dynamic weight adjustment of inverter capacity and electrical distance. Firstly, the impact of WT power output on the voltage of each node in the system at different electrical distances was analyzed. Then, establish a reactive power dispatch model that takes the remaining capacity of the converter and electrical distance factors into account, and the weight coefficient between the two is dynamically adjusted based on voltage deviation by combining the idea of disturbance observation, achieve rapid distribution of reactive power commands without relying on detailed power flow modeling of the system. Finally, a 5MW*25 wind farm case is used to verify the proposed method. The results show that the proposed method can effectively reduce the voltage deviation by more than 30% under the same reactive power scheduling instruction, and can improve the reactive power dispatch range of the wind farm.