Utilization of Low Voltage In-Line Power Regulator for reliable integration & performance of DER technologies

2015 IEEE Power & Energy Society General Meeting Pub Date : 2015-07-26 DOI:10.1109/PESGM.2015.7286622

M. Tabrizi, M. Sahni, N. Prakash, Vincent Martinelli, J. Simonelli

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引用次数: 4

Abstract

The increasing penetration of DER technologies is accompanied with challenges associated with changing system operation characteristics. Some of these challenges include load voltage regulation, reverse power flow issues, volt/VAR optimization and optimal use of sub-transmission and distribution facilities to reliably operate the system. This paper discusses the concept of a Low Voltage In-Line Power Regulator (LV-IPR) as a means to provide the necessary load voltage regulation and reactive compensation (under bi-directional power flow conditions) for reliable integration of DER technologies. A simplified dynamic model for the LV-IPR has been developed for the purposes of sub-transmission system studies and benchmarked with the detailed model. The performance of the LV-IPR has been evaluated on a sample utility distribution feeder in terms of its ability to provide load voltage regulation, reactive compensation and enhanced reliability for distributed PV integration. Finally, the capability of the LV-IPR to ensure no interference with the conventional protection schemes on the distribution system has also been established.

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利用低压在线电源调节器实现DER技术的可靠集成和性能

随着分布式存储技术的日益普及，系统运行特性的变化也带来了挑战。其中一些挑战包括负载电压调节、反向潮流问题、电压/无功优化以及优化使用子输配电设施以可靠地运行系统。本文讨论了低压在线功率调节器(LV-IPR)的概念，作为提供必要的负载电压调节和无功补偿的手段(在双向潮流条件下)，以可靠地集成分布式电源技术。本文建立了一个简化的低压- ipr动态模型，用于分输电系统的研究，并以详细模型为基准。LV-IPR的性能已经在一个样本公用事业配电馈线上进行了评估，根据其提供负载电压调节、无功补偿和增强分布式光伏集成可靠性的能力。最后，还建立了LV-IPR保证不干扰配电系统上常规保护方案的能力。

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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2015 IEEE Power & Energy Society General Meeting

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