EMT-Phasor Domain Hybrid Simulation of Distribution Grids with Photovoltaic Inverters

2022 IEEE Industry Applications Society Annual Meeting (IAS) Pub Date : 2022-10-09 DOI:10.1109/IAS54023.2022.9939967

Maryam Mahmoudi Koutenaei, Thai-Thanh Nguyen, T. Vu, S. Paudyal

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引用次数: 1

Abstract

This paper presents the hybrid simulation technique to efficiently analyze the impact of high PV penetration on the distribution system. The proposed approach utilizes the multi-domain simulation capability of Matlab/Simulink software to simulate the tested system in the Electromagnetic Transient (EMT) and Phasor domains. The detailed switching models of several PV inverters are modeled in the EMT domain, while the rest, including other PV inverters and the grid, are modeled in the Phasor domain. An interaction method is proposed to handle data transferring between EMT and Phasor sub-systems. The modified IEEE 13-node distribution grid with several units of a two-stage single-phase smart PV inverter is used to validate the proposed technique. Several transient studies are carried out to analyze the accuracy and efficiency of the proposed hybrid method and compared with the full EMT model. Simulation results show that the proposed approach significantly reduces the computation time and retains sufficient accuracy as compared to full EMT model.

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带光伏逆变器配电网的emt -相域混合仿真

本文提出了一种混合仿真技术，以有效地分析光伏高渗透对配电系统的影响。该方法利用Matlab/Simulink软件的多域仿真能力，在电磁瞬变(EMT)和相量域对被测系统进行仿真。一些光伏逆变器的详细开关模型在EMT域中建模，而其余的，包括其他光伏逆变器和电网，在相量域中建模。提出了一种处理EMT与相量子系统之间数据传输的交互方法。在改进的IEEE 13节点配电网中，采用多台两级单相智能光伏逆变器对该技术进行了验证。通过若干瞬态研究分析了该混合方法的精度和效率，并与全EMT模型进行了比较。仿真结果表明，与全EMT模型相比，该方法大大减少了计算时间，并保持了足够的精度。

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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2022 IEEE Industry Applications Society Annual Meeting (IAS)

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