±800kV特高压直流输电系统换流站换流阀过电压机理和计算条件(英文)

The thyristor converter valve is the key equipment of commutation in ultra high voltage direct current(UHVDC) transmission systems.Owing to the limited voltage and current overload capacity,any transient overvoltage may cause permanent damage to the thyristor converter valve.In order to specify the converter valves' overvoltage levels of the ±800 kV UHVDC transmission system,the mechanisms of its generation and development are discussed in detail,from which the calculation conditions for the highest stresses of the converter valves are given.Finally,the converter valve's overvoltage of Xiluodu UHV converter station is simulated.The research results show that the overvoltages of the converter valves in the upper 3-pulse group of the high voltage(HV) and low voltage(LV) 12-pulse converter are generated jointly by the DC line voltage and the converter transformer's voltage at its valve side.Calculation conditions for this overvoltage are: DC system in bipolar operation mode,converter station operating as rectifier,maximum DC system operating voltage,minimum DC current,minimum AC system voltage of the converter station.Furthermore,the other converter valves' overvoltage is caused by the phase-to-phase switching surge generated at the converter station's AC side,penetrating into the valve hall.Overall,the maximum overvoltages of Xiluodu converter station in the upper 3-pulse group of the HV and LV 12-pulse converter are 379.1 kV and 384.9 kV,for other converter valves the maximum overvoltage is 375.3 kV.