利用离散RLC电路与电源在环硬件方法的非故意孤岛评估

S. Gonzalez, Edgardo Desardén-Carrero, Nicholas S. Gurule, Erick E. Aponte-Bezares
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引用次数: 2

摘要

光伏(PV)分布式能源(DER)的高渗透率促进了当今系统提供电网支持功能和穿越电压和频率事件的需求,以最大限度地减少对配电系统的不利影响。这些新功能及其需求引发了人们的担忧,即自动无意孤岛(UI)算法不足以防止检测到效用损失的情况。IEEE 1547-2018中的类型测试已经发展到彻底评估DER能力,并采用了一种新的方法,包括电源硬件在环(PHIL)测试。桑迪亚国家实验室正在对使用离散元件的调谐电阻、电感、电容(RLC)电路方法和应用PV逆变器被测设备(EUT)、实时模拟器和功率放大器的PHIL进行详细的实验室比较。PHIL方法允许UI评估,而不需要潜在昂贵的、大型的、产生热量的离散负载。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Unintentional Islanding Evaluation Utilizing Discrete RLC Circuit Versus Power Hardware-in-the Loop Method
The high penetration of photovoltaic (PV) distributed energy resources (DER) facilitates the need for today’s systems to provide grid support functions and ride-through voltage and frequency events to minimize the adverse impacts on the distribution power system. These new capabilities and its requirements have created concerns that autonomous unintentional islanding (UI) algorithms are not sufficient to prevent a condition were the loss of utility is detected. Type tests in IEEE 1547-2018 have evolved to thoroughly evaluate DER capabilities and a new method includes power hardware-in-the-loop (PHIL) testing. Sandia National Laboratories is performing a detailed laboratory comparison of the tuned Resistive, Inductive, Capacitive (RLC) circuit method using discrete elements and the PHIL that applies the PV inverter equipment under test (EUT), real-time simulator, and a power amplifier. The PHIL method allows UI assessments without the need for potentially expensive, large, heat generating discrete loads.
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