Modern applications of line differential protections to improve EHV transmission grids security: the Italian experience

2020 AEIT International Annual Conference (AEIT) Pub Date : 2020-09-23 DOI:10.23919/AEIT50178.2020.9241203

F. Bassi, L. Caciolli, E. Carlini, G. Giannuzzi, G. Ramundo, Luciano Vignolini

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Abstract

EHV transmission grids require more and more a fast and selective fault clearing in order to guarantee the requested levels of security and stability. In last years, technology has made available new line devices with embedded differential and distance protection functionalities (87L/21). These multifunction devices include also some other enhanced features. Moreover, the increased availability of suitable telecommunication vectors (fiber optic, SDH networks, MPLS networks, etc.) has enabled their diffusion and use. In the first part of the paper, the main advantages of line differential protection use for selective clearing of different fault types are described and its performances are compared with distance protection ones. In the second part Terna’s approach and experience on line differential protection installation and future spread plans are reported. There are also described telecommunication approaches already in use (Fiber Optic, SDH networks) and the current tests on advanced MPLS networks usage. In the final part some future perspectives on Sampled Value IEDs and traveling wave-based protection schemes are briefly introduced.

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线路差动保护的现代应用，以提高特高压输电网的安全性:意大利的经验

为了保证所要求的安全性和稳定性，特高压输电网越来越需要快速和有选择性的故障清除。在过去的几年里，技术已经提供了新的线路设备，具有嵌入式差分和距离保护功能(87L/21)。这些多功能设备还包括一些其他增强功能。此外，适当的电信载体(光纤、SDH网络、MPLS网络等)的可用性增加，使它们能够扩散和使用。本文第一部分阐述了采用线路差动保护选择性清除不同类型故障的主要优点，并与距离保护进行了性能比较。第二部分介绍了特尔纳在线路差动保护安装上的做法和经验，以及今后的推广计划。还有一些已在使用的电信方法(光纤、SDH网络)和目前对高级MPLS网络使用的测试。最后简要介绍了采样值爆炸装置和行波保护方案的发展前景。

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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2020 AEIT International Annual Conference (AEIT)

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