Grid Transient Stability Improvement with Increased PV Availability: A PV Inverter Reliability Enhancement Approach

2021 IEEE 12th International Symposium on Power Electronics for Distributed Generation Systems (PEDG) Pub Date : 2021-06-28 DOI:10.1109/PEDG51384.2021.9494242

Jianzhe Liu, Jiangbiao He, Bo Chen, Yichen Zhang, F. Qiu

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Abstract

PV generation is a key contributor to a carbon-neutral power system. With proper planning and operation, it has significant potential to improve system reliability as well. Nevertheless, solar availability is volatile which poses a challenge to ensure an uninterrupted grid-supporting performance. One critical factor leading to the loss of PV generation is PV inverter malfunctioning as it is the most frequent fault scenario in PV systems. Despite this, there is still inadequate study into PV inverter reliability, especially for online non-intrusive health monitoring methods. In addition, effective PV planning calls for quantitative study into PV impact on grid reliability. This paper is one of the first efforts to bridge this gap. We first reveal the significance of PV generation to grid reliability by studying its impact on grid transient performance in both DC and AC networks. It can work as an input to PV planning problems, for example, to determine the optimal siting and operation strategies. Then, we develop an online monitoring algorithm to provide situational awareness information into PV inverter health. At last, we develop fault-tolerant control strategies for PV inverters to enhance PV availability. A case study verifies the proposed work.

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提高光伏可用性改善电网暂态稳定性:一种光伏逆变器可靠性增强方法

光伏发电是碳中和电力系统的重要组成部分。通过适当的规划和操作，它也具有提高系统可靠性的巨大潜力。然而，太阳能的可用性是不稳定的，这对确保不间断的电网支持性能提出了挑战。导致光伏发电损失的一个关键因素是光伏逆变器故障，这是光伏系统中最常见的故障场景。尽管如此，对光伏逆变器可靠性的研究仍然不足，尤其是对在线非侵入式健康监测方法的研究。此外，有效的光伏规划需要定量研究光伏对电网可靠性的影响。本文是弥合这一差距的首批努力之一。我们首先通过研究光伏发电对直流和交流电网暂态性能的影响，揭示了光伏发电对电网可靠性的重要性。它可以作为PV规划问题的输入，例如，确定最佳选址和运营策略。然后，我们开发了一种在线监测算法，为光伏逆变器的健康状况提供态势感知信息。最后，我们开发了光伏逆变器的容错控制策略，以提高光伏的可用性。一个案例研究验证了所提出的工作。

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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2021 IEEE 12th International Symposium on Power Electronics for Distributed Generation Systems (PEDG)

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