Optimal Power Flow Control in a Stand-Alone PV System with a Battery-Assisted Quasi-Z-Source Inverter

B&H Electrical Engineering Pub Date : 2020-10-01 DOI:10.2478/bhee-2020-0003

Mateo Bašić, Matija Bubalo, D. Vukadinović, I. Grgić

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Abstract

Abstract This paper presents a photovoltaic (PV) power system with a battery storage unit and the quasi-Z-source inverter (qZSI). This inverter belongs to the group of transformerless single-stage inverters with buck/boost capability. The considered system is designed for autonomous load supply and battery charging in areas isolated from the utility grid. The batteries ensure continuous operation in the case of energy shortage/surplus and compensate for the oscillations of the PV power due to changes in atmospheric conditions. They also enable capturing of the maximum available power from the PV modules. The maximum power point tracking (MPPT) algorithm utilized in this study belongs to the group of perturb-and-observe (P&O) algorithms, which are widely used in commercial PV systems. The state of charge (SOC) of the employed batteries represents an important factor in the context of MPPT operation and is taken into account in the proposed power flow control algorithm. The performance of the proposed system has been tested through simulations in the MATLAB Simulink over wide ranges of solar irradiation, PV module temperatures, and SOC levels.

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电池辅助准z源逆变器独立光伏系统的最优潮流控制

摘要:本文提出了一种具有电池储能单元和准z源逆变器(qZSI)的光伏发电系统。该逆变器属于具有降压/升压能力的无变压器单级逆变器。所考虑的系统设计用于在与公用电网隔离的区域进行自主负载供应和电池充电。电池确保在能源短缺/过剩的情况下持续运行，并补偿由于大气条件变化而引起的光伏发电的振荡。它们还可以捕获来自光伏模块的最大可用功率。本文所采用的最大功率点跟踪(MPPT)算法属于商业光伏系统中广泛使用的扰动与观测(P&O)算法。所使用电池的荷电状态(SOC)是MPPT运行环境中的一个重要因素，并在所提出的潮流控制算法中加以考虑。该系统的性能已通过MATLAB Simulink在大范围的太阳辐照、光伏组件温度和SOC水平下的模拟测试。

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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B&H Electrical Engineering

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