Investigation on Impact of Solar PV penetration on the Operation of Protective Relays in a Distribution System using Python

D. Nair, R. T.
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引用次数: 3

Abstract

The integration of renewable energy into the existing distribution system results in the development of an active, interconnected system. PV generation is one of the widely integrated renewable energy sources. As the level of PV penetration increases the challenges will also increase. This paper presents the impact of PV in distribution systems in terms of voltage profile, power flow and short circuit analysis. This change in the short circuit current level and power flow direction will affect the coordinated operation of the protection system of the electrical network. Test systems representing distribution systems are modelled in the Python platform. Python is an open-source software platform with excellent community support, machine learning and data analysis features. A case study is conducted on an IEEE 33 bus distribution system to analyse the impact of PV penetration on protective devices and protection issues. The results show that when high PV penetration occurs the systems short circuit current level and direction of power flow changes which will affect the operation of the protective devices. Further, when PV penetration increases up to 40 % the short circuit current level may vary up to 7 times the standard value which will affect the performance of the protective device as the device setting is primarily dependent upon the short circuit current value.
用Python研究太阳能光伏渗透对配电系统保护继电器运行的影响
将可再生能源整合到现有的配电系统中,形成了一个主动的、互联的系统。光伏发电是广泛集成的可再生能源之一。随着光伏渗透水平的提高,挑战也将增加。本文从电压分布、潮流和短路分析等方面介绍了光伏发电对配电系统的影响。这种短路电流水平和潮流方向的变化将影响电网保护系统的协调运行。表示分配系统的测试系统在Python平台中建模。Python是一个开源软件平台,具有出色的社区支持,机器学习和数据分析功能。以IEEE 33总线配电系统为例,分析了光伏渗透对保护装置和保护问题的影响。结果表明,当光伏高穿深时,系统短路电流水平和潮流方向发生变化,将影响保护装置的工作。此外,当PV穿透增加到40%时,短路电流水平可能变化到标准值的7倍,这将影响保护装置的性能,因为设备设置主要取决于短路电流值。
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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