Seamless Control of Solar PV Grid Interfaced System With Islanding Operation

IEEE Power and Energy Technology Systems Journal Pub Date : 2019-07-19 DOI:10.1109/JPETS.2019.2929300

Sunaina Singh, S. Kewat, Bhim Singh, B. K. Panigrahi, M. Kushwaha

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引用次数: 19

Abstract

This paper presents a robust control strategy for a solar photovoltaic (PV)-based distributed generation system (DGS) with seamless transition capabilities from islanded to the grid-connected mode and vice versa. The proposed DGS consists of a solar PV array, a dc–dc boost converter, voltage source converter (VSC), and local nonlinear loads. In grid-connected mode, VSC regulates the dc-link voltage and the boost converter operates the solar PV array at the maximum power point. Moreover, the load reactive power compensation and harmonics elimination with unity power factor operation are achieved using the advanced robust shrinkage normalized sign (ARSNS)-based control algorithm. Therefore, the grid current distortion is maintained within the IEEE-519 standard and the IEEE-1547 standard. Under the grid fault condition, the proposed DGS operates in an islanded mode without any storage unit. The grid synchronization and resynchronization operations are executed through the intelligent synchronization control (SYC) algorithm with fast Fourier transform phase-locked loop (FFT-PLL). Test results demonstrate the system capabilities under the abnormal grid and unbalanced nonlinear load conditions.

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孤岛运行时太阳能光伏并网系统的无缝控制

本文提出了具有孤岛与并网无缝转换能力的太阳能光伏分布式发电系统的鲁棒控制策略。该DGS由太阳能光伏阵列、dc-dc升压变换器、电压源变换器(VSC)和局部非线性负载组成。在并网模式下，VSC调节直流链路电压，升压变换器在最大功率点运行太阳能光伏阵列。采用先进的基于鲁棒收缩归一化符号(ARSNS)的控制算法，实现了单位功率因数运行下的负载无功补偿和谐波消除。因此，电网电流畸变维持在IEEE-519标准和IEEE-1547标准范围内。在电网故障情况下，该系统以孤岛模式运行，不需要任何存储单元。通过快速傅立叶变换锁相环(FFT-PLL)智能同步控制(SYC)算法实现电网同步和再同步操作。试验结果验证了系统在电网异常和非线性负载不平衡条件下的性能。

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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IEEE Power and Energy Technology Systems Journal

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