夏威夷馈线上光伏逆变器电网支持的电力硬件在环评估

A. Nelson, K. Prabakar, A. Nagarajan, Shaili Nepal, A. Hoke, Marc Asano, R. Ueda, Earle Ifuku
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引用次数: 8

摘要

随着越来越多的并网光伏(PV)逆变器符合不断发展的互连要求,公用事业公司对了解如何在现场最好地部署先进的电网支持功能(GSF)越来越感兴趣。检查此类部署选项的一种高效且经济的方法是利用电源硬件在环(PHIL)测试方法,该方法将硬件测试的保真度与计算机模拟的灵活性相结合。本文总结了一项研究,利用OPAL-RT实时数字测试平台将两个夏威夷馈电器模型转换为实时模型,并根据表征测试数据与具有GSF功能的光伏逆变器模型集成。该集成模型随后用于PHIL测试,以评估不同固定功率因数和伏瓦控制设置对使用物理逆变器的选定馈线电压调节的影响。本文给出了部分研究结果,并将完整的研究结果作为夏威夷群岛光伏并网逆变器的现场部署和技术互联要求的输入。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Power hardware-in-the-loop evaluation of PV inverter grid support on Hawaiian electric feeders
As more grid-connected photovoltaic (PV) inverters become compliant with evolving interconnections requirements, there is increased interest from utilities in understanding how to best deploy advanced grid-support functions (GSF) in the field. One efficient and cost-effective method to examine such deployment options is to leverage power hardware-in-the-loop (PHIL) testing methods, which combine the fidelity of hardware tests with the flexibility of computer simulation. This paper summarizes a study wherein two Hawaiian Electric feeder models were converted to real-time models using an OPAL-RT real-time digital testing platform, and integrated with models of GSF capable PV inverters based on characterization test data. The integrated model was subsequently used in PHIL testing to evaluate the effects of different fixed power factor and volt-watt control settings on voltage regulation of the selected feeders using physical inverters. Selected results are presented in this paper, and complete results of this study were provided as inputs for field deployment and technical interconnection requirements for grid-connected PV inverters on the Hawaiian Islands.
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