Voltage regulation in a smart distribution system incorporating variable renewable generation

2014 IEEE Innovative Smart Grid Technologies - Asia (ISGT ASIA) Pub Date : 2014-05-20 DOI:10.1109/ISGT-ASIA.2014.6873857

J. O. Petintin, M. Shaaban

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引用次数: 5

Abstract

Intermittency of variable renewable generation (VRG) requires time sequence analysis, over a defined interval, to adequately capture VRG characteristics. As the penetration level rises, connected VRGs inject as much energy as the existing resource permits. It is therefore, essential to develop a technique that maintains system voltage profile, and facilitates the smoother integration of VRGs into the grid. This paper describes an approach to coordinate the use of load tap changing (LTC) transformers and switched capacitors (SCs) to improve the system-wide voltage profile due to the penetration of VRGs. Unlike other approaches that tend to optimize the size and location of VRGs, to enhance the grid performance, the proposed approach contends with the status quo of the system, with the added VRGs of different sizes and locations, and administers LTCs and SCs to regulate the system voltage. The IEEE 123 test feeder is considered as the test system in this paper. The effectiveness of the proposed method is validated under various test cases through a time sequence analysis over 24-hourly simulation period. The corresponding voltage profile is analyzed under various penetration levels of solar PV.

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包含可变可再生能源发电的智能配电系统的电压调节

可变可再生能源发电(VRG)的间歇性需要在一定的时间间隔内进行时间序列分析，以充分捕捉VRG的特性。随着渗透水平的提高，连接的vrg在现有资源允许的情况下注入尽可能多的能量。因此，有必要开发一种技术来维持系统电压分布，并促进vrg更顺利地整合到电网中。本文描述了一种协调使用负载分接变换(LTC)变压器和开关电容器(SCs)的方法，以改善由于vrg的渗透而导致的全系统电压分布。与其他通过优化vrg的大小和位置来提高电网性能的方法不同，本文提出的方法与系统现状相竞争，通过增加不同大小和位置的vrg，并管理ltc和sc来调节系统电压。本文采用ieee123测试馈线作为测试系统。通过24小时的仿真时间序列分析，在多个测试用例下验证了该方法的有效性。分析了太阳能光伏在不同渗透水平下的电压分布。

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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2014 IEEE Innovative Smart Grid Technologies - Asia (ISGT ASIA)

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