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直流可控消能装置控制开关间电流转移特性OA

Current transfer characteristics of control switches in a DC controllable energy dissipation device

中文摘要英文摘要

为限制柔性直流阀过电压并吸收盈余能量,在白鹤滩—江苏±800 kV特高压混合级联直流输电工程中采用基于金属氧化物限压器的直流可控消能装置.该装置控制开关由 3类控制开关并联构成,瞬态电流在 3个控制开关之间的转移和分配对装置的安全运行至关重要.首先,分析控制开关运行工况及控制开关间的电流转移特性,对正弦半波电流波形下的电流转移特性开展理论计算与电磁暂态仿真.计算和仿真结果表明,快速开关合闸后,晶闸管支路电流可迅速转移到快速开关支路,晶闸管可靠关断.然后,通过合成试验回路实测控制开关间的电流转移特性,验证理论计算和仿真结果的准确性.试验中晶闸管关断时刻较电磁暂态仿真延迟约 5.7 ms,主要原因为仿真与实际饱和电抗器非线性特性存在一定差异,导致晶闸管开关支路电流转移速率降低.调整饱和电抗器仿真参数后,该延迟减小至约 1.8 ms.最后,依托白鹤滩—江苏特高压混合级联直流输电系统电磁暂态模型校核控制开关间的电流转移特性,极端工况下快速开关支路电流约为总电流的30%.

To limit the overvoltages of the flexible DC converter valves and absorb surplus energy,a DC controllable energy dissipation device based on metal oxide varistors has been applied for the first time in the Baihetan-Jiangsu±800 kV hybrid cascaded ultra-high voltage direct current(UHVDC)transmission project.The control switches of the device consist of three types of switches connected in parallel,so the transient current transfer and distribution among the three control switches are critical to the safe operation of the device.Firstly,the operating conditions and current transfer characteristics of the control switches are analyzed.Theoretical calculations and electromagnetic transient simulations are performed on current transfer characteristics under a sinusoidal half-wave current waveform.The results show that after the fast switch is closed,the current in the thyristor switch branch can be rapidly transferred to the fast switch branch,and the thyristor turns off reliably.Furthermore,the current transfer characteristics among the control switches are validated via a synthetic test circuit,and the test results verify the accuracy of theoretical calculations and simulations.In the tests,the thyristor turn-off time is delayed by approximately 5.7 ms compared with the simulation results,mainly due to discrepancies in the nonlinear characteristics between the simulated and actual saturated reactors.This reduces the current transfer rate of the thyristor branch.After adjusting the saturated reactor parameters in the simulation,the thyristor turn-off time in the simulation lags the test result by about 1.8 ms.Finally,the current transfer characteristics between the control switches under engineering operating conditions are verified using the electromagnetic transient model of the Baihetan-Jiangsu hybrid cascaded UHVDC system.Under extreme operating conditions,the current through the fast switch branch accounts for approximately 30%of the total current.

王德昌;丁峰峰;刘磊;陈远俊;石巍;周启文

南京南瑞继保电气有限公司,江苏 南京 211102南京南瑞继保电气有限公司,江苏 南京 211102南京南瑞继保电气有限公司,江苏 南京 211102南京南瑞继保电气有限公司,江苏 南京 211102南京南瑞继保电气有限公司,江苏 南京 211102南京南瑞继保电气有限公司,江苏 南京 211102

信息技术与安全科学

混合级联直流输电可控消能装置金属氧化非线性电阻晶闸管开关快速开关电流转移特性

hybrid high voltage direct current transmissioncontrollable energy dissipation devicemetal oxide non-linear resistorthyristor switchfast switchcurrent transfer characteristic

《电力工程技术》 2026 (6)

44-52,9

国家重点研发计划资助项目(2023YFB2405903)

10.12158/j.2096-3203.2026.06.005

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