A Novel Passive Over-Current Trip Device for Seismic Resilience

IF 3.3 Q3 ENERGY & FUELS

IEEE Open Access Journal of Power and Energy Pub Date : 2024-03-15 DOI:10.1109/OAJPE.2024.3401165

Lai-Wan Hsu;Jian-Hong Liu;Kun-Long Chen;Pei-Ching Chen;Kuo Lung Lian;Hong-En Chiang;Zhi-Kai Fan;Zhao-Yin Chen;Chung-Liang Cheng;Chi-Feng Chung;Yuan-Ching Tu

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引用次数: 0

Abstract

The seismic resilience has become a critical concern for power systems for high-impact, low-probability disasters such as severe earthquakes. In order to enhance seismic resilience for power systems, a novel protective device, the Passive Over-Current Trip (POCT), has been designed in this paper. In the design, the POCT integrates a fuse and a mechanical switch, able to trigger the breaker to interrupt the circuit to ensure effective protection. The POCT has the trip-free feature as it fulfills its protective function without the need for an electric relay requiring a continuous power supply. The proposed POCT provides an immediate and reliable solution for the protection in high and ultra-high voltage applications. To validate the effectiveness of the proposed POCT, shockproof and tripping tests were conducted. A seismic test waveform from the Fukushima earthquake that occurred on March 11, 2011 was used to test POCT. Under such a severe earthquake, no structural or mechanical damage on the associated components in the POCT was found. Also, the POCT is also in compliance with IEEE 693 standard. Finally, various tripping tests show that the POCT can operate within 18 ms when a fault occurs in a power system, which is much shorter than that of a typical high-voltage fuse.

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用于抗震的新型无源过流跳闸装置

抗震能力已成为电力系统应对强地震等高影响、低概率灾害的关键问题。为了提高电力系统的抗震能力，本文设计了一种新型保护装置--被动过流脱扣器（POCT）。在设计中，POCT 集成了熔断器和机械开关，能够触发断路器中断电路，从而确保有效保护。POCT 具有免跳闸功能，因为它无需使用需要持续供电的电气继电器即可实现保护功能。拟议的 POCT 为高压和超高压应用中的保护提供了直接可靠的解决方案。为了验证拟议 POCT 的有效性，进行了防震和跳闸试验。测试 POCT 时使用了 2011 年 3 月 11 日福岛地震的地震测试波形。在如此剧烈的地震中，POCT 的相关组件未发现任何结构或机械损坏。此外，POCT 还符合 IEEE 693 标准。最后，各种跳闸测试表明，当电力系统故障发生时，POCT 可在 18 毫秒内动作，比一般高压熔断器的动作时间短得多。

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

IEEE Open Access Journal of Power and Energy Multiple-

CiteScore

7.80

自引率

5.30%

发文量

审稿时长

10 weeks