Vulnerability assessment of line current differential protection in converter–dominated power systems

16th International Conference on Developments in Power System Protection (DPSP 2022) Pub Date : 1900-01-01 DOI:10.1049/icp.2022.0967

K. Kawal, Q. Hong, S. Paladhi, D. Liu, P. Papadopoulos, S. Blair, C. Booth

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引用次数: 1

Abstract

Line current differential (LCD) protection is traditionally considered to be highly dependable and secure. However, the increasing penetration of converter interfaced sources (CIS) (e.g. wind, PV, HVDC systems, etc.) could significantly reduce the system fault level and change the fault characteristics, thus presenting challenges to the reliable operation of LCD protection. In this paper, the impact of the integration of CIS on LCD performance is investigated comprehensively. Analytical expressions representing LCD relay operation in the presence of converter-driven fault currents and weak infeed conditions have been developed. A test network, comprising of a CIS model equipped with a typical converter fault-ride through strategy that is compliant with the GB Grid Code, has been built in a Real-Time Digital Simulator (RTDS). Simulations of LCD performance for different fault and system conditions are performed and presented. It is demonstrated that the dependability of the LCD relay can be compromised during internal phase-to-phase faults. The results also show that with the synchronous generation being displaced by CIS, the increasing CIS penetration and fault contribution from the CIS can lead to an increased phase angle difference between the fault currents contributed from the two ends of the protected line, which will increase the risk of the compromised protection performance.

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变流器主导电力系统线路电流差动保护易损性评估

线路电流差动(LCD)保护传统上被认为是高度可靠和安全的。然而，随着变换器接口电源(CIS)(如风电、光伏、高压直流系统等)的不断渗透，系统故障水平显著降低，故障特征发生改变，对LCD保护的可靠运行提出了挑战。本文全面研究了CIS集成对LCD性能的影响。给出了在变换器驱动的故障电流和弱馈电条件下LCD继电器运行的解析表达式。在实时数字模拟器(RTDS)上建立了一个测试网络，该网络由CIS模型组成，并配备了符合GB网格规范的典型变换器故障穿越策略。对LCD在不同故障和系统条件下的性能进行了仿真。结果表明，在内部相相故障的情况下，LCD继电器的可靠性会受到影响。结果还表明，随着同步电源被CIS取代，CIS穿深和CIS故障贡献的增加会导致保护线路两端故障电流相位角差的增加，从而增加保护性能下降的风险。

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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来源期刊

16th International Conference on Developments in Power System Protection (DPSP 2022)

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