Transient Overvoltage Analysis in HVDC MMC Power Cables: Assessment of the Critical Points

2019 AEIT HVDC International Conference (AEIT HVDC) Pub Date : 2019-05-01 DOI:10.1109/AEIT-HVDC.2019.8740388

R. Benato, A. Chiarelli, S. Sessa

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引用次数: 3

Abstract

The current scenario of continuous and increasing production of energy from renewable sources and the progressive increase of interties between different countries, gives the high voltage direct current transmission lines (HVDC) a role of present and future protagonist in the electrical power transmission. One of the main issues concerning the HVDC systems is the effect of the transient overvoltages (TOV) which occur during fault conditions on the DC side of a HVDC link. In fact, even if power cables are tested in order to withstand overvoltages with standardized characteristics, the real TOV phenomena do not have standard features. In this paper, the analysis of the TOVs of a HVDC symmetrical monopolar configuration is carried out, by studying the TOV propagation along the cable line and by defining step by step the overvoltage trend for different fault sections. Moreover, by means of a probability study, the most stressed points along the cable are identified by taking into account all the possible fault positions, so to highlight which are the more critical positions of the cable system irrespective of the fault section.

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高压直流MMC电力电缆暂态过电压分析:临界点的评估

目前，可再生能源的产量不断增加，各国之间的联系也在不断增加，这使得高压直流输电线路(HVDC)在当前和未来的电力传输中扮演着主角的角色。高压直流输电系统的主要问题之一是故障状态下直流侧瞬态过电压的影响。事实上，即使对电力电缆进行了测试，以承受具有标准化特性的过电压，但真正的TOV现象并不具有标准特性。本文通过研究电压沿电缆线路的传播，逐步确定不同故障段的过电压趋势，对高压直流对称单极结构的电压电压进行了分析。此外，通过概率研究，通过考虑所有可能的故障位置来确定沿电缆的最大应力点，从而在不考虑故障部分的情况下突出哪些是电缆系统中更关键的位置。

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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2019 AEIT HVDC International Conference (AEIT HVDC)

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