Impact of Distributed Generation on Distribution Systems with Cascaded Bidirectional Step Voltage Regulators

2018 13th IEEE International Conference on Industry Applications (INDUSCON) Pub Date : 2018-11-01 DOI:10.1109/INDUSCON.2018.8627230

H. R. Brito, V. M. Souza, V. C. Souza, J. Vieira, U. Bezerra, M. Tostes, A. O. R. Garcia, M. Costa, G. Carrera, H. Cardoso

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引用次数: 4

Abstract

Distribution grids with high penetration rate of distributed generation (DG) are often subjected to undesired reverse active power flow scenarios. Depending on the interactions between the DG's control modes and the feeder's step voltage regulators (SVRs), abnormal situations such as the phenomenon known as reverse power tap changer runaway condition may occur. This paper investigates the impact of DG on a distribution network with two cascaded SVRs, both operating in bidirectional mode. Tests were performed using two different control modes of the DG: unity power factor control, which is typically employed, and voltage control. The results obtained from time series power flow simulations show the behaviour of the cascaded SVRs and their effects on the feeder voltage profile. Special focus is placed on scenarios where the penetration level of the DG, located at the far end of the feeder, exceeds the total load demand.

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分布式发电对级联双向阶跃稳压器配电系统的影响

分布式发电渗透率高的配电网往往会出现不理想的反向有功潮流。根据DG的控制模式和馈线的阶跃电压调节器(SVRs)之间的相互作用，可能会发生异常情况，例如被称为反向电源分接开关失控的现象。本文研究了两个级联的SVRs在双向模式下运行时，DG对配电网的影响。使用DG的两种不同控制模式进行了测试:通常采用的单位功率因数控制和电压控制。时间序列潮流模拟的结果显示了级联SVRs的行为及其对馈线电压分布的影响。特别关注的是位于馈线远端的DG的穿透水平超过总负载需求的情况。

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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2018 13th IEEE International Conference on Industry Applications (INDUSCON)

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