Abstract: The anode reactance plays a stabilizing and protective role in the operation of the converter valve, according to the operating conditions of the anode reactance for flexible HVDC valve based on IGCT-Plus, analyzing the anode inductor heating mechanism,then obtaining the anode reactance current waveform, and the equivalent thermal circuit model is obtained by analyzing the structure and heat dissipation characteristics of anode reactance. A three-dimensional model of the anode reactance is established and finite element simulation analysis is carried out based on actual dimensions. According to the simulation results, a single-module test circuit for an MMC(modular multilevel converter) converter valve in a flexible HVDC (high-voltage direct current) system has been constructed. The accuracy of the heat dissipation analysis and simulation results of the anode reactor for flexible HVDC valve based on IGCT-Plus devices is verified by experiments, and it is shown that under the premise that the anode reactance meets the temperature rise requirements, the cost of anode reactance can be further reduced by optimizing the flow rate of the cooling channel, and the rationality of the scheme is verified by the experiment, which provides a basis for the thermal simulation and engineering practice of the anode reactor based on IGCT MMC converter valve.

    Key words: IGCT-Plus; flexible HVDC valve; anode reactance; thermal simulation