真实世界电网事故调查--未来变流器主导电力系统的机遇、挑战和经验教训

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE open journal of power electronics Pub Date : 2023-12-14 DOI:10.1109/OJPEL.2023.3343167
Jan Wachter;Lutz Gröll;Veit Hagenmeyer
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引用次数: 0

摘要

为了实现国家和国际机构制定的气候目标,传统电力系统的巨大转型是不可避免的。分布式可再生能源发电设备通常与电力电子变流器相连,它们的必要整合对电网特性有着不可忽视的影响。这在故障等异常电网条件下尤为明显。对于旋转机械而言,对这些事件的快速反应主要由物理特性决定。然而,电力电子设备缺乏这种强耦合性,其行为是由控制和自动化系统产生的,因此成为这一过渡时期的主要关注领域。本文对现实世界中发生的事故进行了调查,例如停电或振荡事故,并讨论了这些事故对未来以变流器为主的电网的影响。对于典型的级联停电事故,本文展示了如何利用日益普及的分布式可再生能源发电和智能电网技术来提高系统的恢复能力,例如通过适当的控制设计提供电网服务或启用微电网概念。此外,还介绍了电力电子设备驱动的新出现挑战的实际案例。此外,还说明了控制系统与邻近电网的互动机制及其与生俱来的对各种因素的复杂依赖性。最后,举例说明了由此产生的结构发展,如低压电网共振特性的改变和谐波辐射的增加。
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Survey of Real-World Grid Incidents–Opportunities, Arising Challenges and Lessons Learned for the Future Converter Dominated Power System
To reach the climate goals set by national and international institutions, a vast transition of the legacy power system is unavoidable. The necessary integration of distributed, renewable generation devices, which are often interfaced with power electronic converters, has a non-negligible influence on the characteristics of the power grid. This is particularly visible during abnormal grid conditions such as faults. For rotating machines, the fast-timescale reaction to these events is mainly determined by physical properties. However, power electronic devices lack this strong coupling and their behavior is generated by the control and automation system, making them a major field of interest during this transition. The present paper provides a survey of real-world incidents, as for example blackouts or oscillatory incidents, that are discussed with respect to the implications for future converter dominated power grids. For typical cascading outages it is shown, where the increasing penetration of distributed, renewable generation and smart grid technologies can be leveraged to increase the system resilience, e.g. by providing grid services through adequate control design or by enabling microgrid concepts. Further, real-world examples of newly emerging challenges driven by power electronic devices are presented. The mechanisms of control system interactions with the neighboring grid and its inherent complex dependency on various factors is illustrated. Lastly, resulting structural developments such as the changed resonance properties of low voltage grids and the increase of harmonic emissions are exemplified.
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8.60
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审稿时长
8 weeks
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