Case Studies on Ground-Fault Protection of Microgrid Power Systems With Diverse Power Sources

2022 IEEE IAS Petroleum and Chemical Industry Technical Conference (PCIC) Pub Date : 2022-09-26 DOI:10.1109/PCIC42668.2022.10181255

Dirk Danninger, S. Manson, F. Calero, Ceeman Vellaithurai

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Abstract

In this paper, we share the experiences of designing, installing, and commissioning grounding and ground fault protection systems for three different low-voltage and medium-voltage power systems. The first project is a low-voltage service entrance with a standby generator. The second is a large peak shaving battery and a photovoltaic (PV) power plant that must seamlessly island and reconnect to the transmission grid without loss of power to customers. The third is a transportable microgrid with a grid forming with droop battery inverter and synchronous condenser with a flywheel. Complicating these designs are the great diversity in 480 V power system designs, the limitations of inverters, and the need to comply with National Electric Code (NEC). NEC compliance and good engineering practices are explained. The logic behind each design is shared, and a checklist is provided to guide others in proper design practices. The solutions shared are shown to be simple, easily maintained, reliable, NEC-compliant, fully monitored, and ready for the rapidly changing power system of the future.

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多源微电网接地故障保护实例研究

本文介绍了三种不同的低压、中压电力系统的接地和接地故障保护系统的设计、安装和调试经验。第一个项目是带备用发电机的低压检修入口。第二个是大型调峰电池和光伏(PV)发电厂，必须无缝隔离并重新连接到输电网，而不会给客户造成电力损失。第三种是带有下垂电池逆变器和带飞轮的同步冷凝器的网格形成的可移动微电网。使这些设计复杂化的是480v电源系统设计的多样性、逆变器的局限性以及遵守国家电气规范(NEC)的需要。解释了NEC合规性和良好的工程实践。每个设计背后的逻辑都是共享的，并且提供了一个清单来指导其他人进行适当的设计实践。所分享的解决方案简单，易于维护，可靠，符合nec标准，完全监控，并为未来快速变化的电力系统做好准备。

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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2022 IEEE IAS Petroleum and Chemical Industry Technical Conference (PCIC)

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