Investigation on Volt-VAr control using CVR at various photovoltaic penetration levels

2014 North American Power Symposium (NAPS) Pub Date : 2014-11-24 DOI:10.1109/NAPS.2014.6965455

A. Rahimi, A. Cloninger, M. Zarghami, M. Vaziri

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引用次数: 8

Abstract

This paper deals with the study of Volt-VAr control using Conservation Voltage Reduction (CVR) in distribution feeders penetrated at various levels of photovoltaic (PV) systems. For several decades, the practice of CVR has been implemented in utilities and the reports indicate that such practices have resulted in annual energy savings up to a few percentages, depending on factors such as the nature of the loads, climate, geographical area, etc. With more penetration of renewable sources of energy, such as photovoltaic systems, questions arise on how Volt-VAr control using CVR can be impacted and/or improved. Furthermore, it is desired to understand the behavior of aggregated loads at the main substation of the distribution system in order to estimate the effectiveness of CVR. As such, an actual distribution feeder has been simulated at various PV penetration levels, with and without implementation of CVR, and its CVR factor density has been calculated using aggregated load modeling based on ZIP parameters. Our results indicate that the increase in PV generation weakens the constant power component of the aggregated load, thus increasing the CVR factor density.

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不同光伏渗透水平下CVR控制伏无功的研究

本文研究了在光伏系统的各级配电馈线中采用守恒降电压(CVR)控制电压无功的问题。几十年来，CVR的实践已经在公用事业中实施，报告表明，根据负载的性质、气候、地理区域等因素，这种做法每年可节省高达几个百分比的能源。随着可再生能源(如光伏系统)的普及，如何影响和/或改进使用CVR的伏无功控制的问题出现了。此外，为了估计CVR的有效性，需要了解配电系统主变电站的聚合负荷行为。因此，本文模拟了一个实际的配电馈线在不同光伏渗透水平下，在有无实施CVR的情况下，并使用基于ZIP参数的聚合负载建模计算了其CVR因子密度。研究结果表明，光伏发电的增加削弱了总负荷的恒定功率部分，从而增加了CVR因子密度。

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 North American Power Symposium (NAPS)

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