A Generalized Model For Unified Ac-Dc Load Flow Analysis

2021 IEEE Texas Power and Energy Conference (TPEC) Pub Date : 2021-02-02 DOI:10.1109/TPEC51183.2021.9384959

M. Rezvani, S. Mehraeen

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引用次数: 5

Abstract

The tendency to gain the benefits of both ac and dc grids pushed the power industries to introduce the ac-dc hybrid system as the future of distribution systems. Although these grids bring substantial advantages for the power system, such as stability, reliability, resiliency, they add more complexities to power network studies, such as load flow, short circuit, dynamic, stability analyses. These complexities arise due to the presence of ac-dc converters. In a hybrid grid, ac and dc system equations should be solved either simultaneously or sequentially. Despite the sequential method that was in a center of attention, the simultaneous approaches have not been deeply researched due to some technical barriers. This paper aims to explore the ac equivalent circuits of dc grids so that the ac-dc hybrid grid can be considered and analyzed as one ac grid. Accordingly, dealing with separate sets of equations for ac and dc networks is avoided. Therefore, all of the classical power system studies, such as the Newton Raphson (NR) based load flow algorithm, stability and dynamic analyses, and short circuit study, can be applied to the ac-dc network with a small modification that substantially saves time and effort.

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统一交直流潮流分析的广义模型

为了同时获得交流和直流电网的好处，电力行业将交直流混合系统作为配电系统的未来。尽管这些电网为电力系统带来了稳定性、可靠性、弹性等诸多优势，但也增加了电网研究的复杂性，如潮流、短路、动态、稳定性分析等。这些复杂性是由于交流-直流转换器的存在而产生的。在混合电网中，交直流系统的方程可以同时求解，也可以依次求解。尽管序贯法一直是人们关注的焦点，但由于技术上的障碍，同步法还没有得到深入的研究。本文旨在探讨直流电网的交流等效电路，以便将交直流混合电网作为一个交流电网来考虑和分析。因此，避免了处理交流和直流网络的单独方程组。因此，所有经典的电力系统研究，如基于牛顿·拉夫森(Newton Raphson, NR)的潮流算法、稳定性和动态分析、短路研究等，都可以在交直流网络中进行小的修改，大大节省了时间和精力。

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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2021 IEEE Texas Power and Energy Conference (TPEC)

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