Switching Overvoltages and Polarity Reversal in Presence of HVDC Circuit Breakers

2023 AEIT HVDC International Conference (AEIT HVDC) Pub Date : 2023-05-25 DOI:10.1109/AEITHVDC58550.2023.10179076

L. Buono, F. Palone, L. Papi, R. Spezie, G. Tresso, P. Vacante, S. Lauria, F. Pizzimenti, F. G. Capponi

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Abstract

The recent development of High Voltage Direct Current circuit breakers (HVDC CBs) prototypes may introduce many potential advantages for HVDC links in terms of flexibility and possible meshing. However, introduction of circuit breaker in HVDC links also prompts the need for a detailed assessment of switching overvoltages and polarity reversal, which were not typically of concern for modern voltage source converters-based links, using half bridge modules. The paper deals with the evaluation of switching overvoltages and polarity reversal stresses on overhead and submarine cable HVDC links equipped with dc circuit breakers; the consideration are obviously extendable to all the equipment on the DC side. A simplified theoretical approach is presented, and a comparison is made with transient simulations on the foreseen 500 kV HVDC Italian “Hypergrid”. Results evidence that switching overvoltages and polarity reversals become a significant design factor with the introduction of dc circuit breaker in HVDC links.

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高压直流断路器存在下的开关过电压和极性反转

高压直流断路器(HVDC CBs)原型的最新发展可能为HVDC链路带来许多潜在的优点，包括灵活性和可能的网格划分。然而，在高压直流输电线路中引入断路器也促使需要对开关过电压和极性反转进行详细评估，这对于使用半桥模块的现代电压源转换器链路来说通常不是问题。研究了安装直流断路器的架空和海底电缆高压直流链路的开关过电压和极性反转应力的评估;这种考虑显然可以扩展到直流侧的所有设备。提出了一种简化的理论方法，并与意大利500千伏高压直流“超级电网”的暂态仿真进行了比较。结果表明，在高压直流线路中引入直流断路器后，开关过电压和极性反转成为一个重要的设计因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 AEIT HVDC International Conference (AEIT HVDC)

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