DEVELOPMENT OF HYSTERESIS CURRENT CONTROLLER FOR POWER QUALITY ENHANCEMENT IN GRID CONNECTED PV SYSTEM

Q4 Energy
J. Roselyn, Devraj Sen, Pratyaksha Lal, Nayanika Purkayastha Purkayastha, C. Nithya
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引用次数: 3

Abstract

The integration of distributed generation like solar and wind are increasing nowadays due to fossil fuel reduction and increased carbon emission. Many integration issues arise of connecting Solar PV to the grid out of which power quality is the important factor. Higher PV injection causes undesirable technical impacts on the distribution networks which leads to power quality issues. This paper studies the impact of PV on the power quality of the utility grid with different levels of penetration of solar energy into the grid. The power quality of the grid is studied using the Total harmonic distortion (THD) by performing Fast Fourier Transform (FFT) analysis. This paper deals with the development of controllers for boost converter and grid tied inverters which minimizes the harmonics due to solar PV system and power converters in grid connected PV system. The Maximum Power Point Tracking (MPPT) for boost converter and Hysteresis current control (HCC) for inverter has been designed and implemented in grid connected PV system. The hysteresis current controller for the inverter has been specifically designed to reduce the THD of the system meeting IEEE519_1992 regulations. The simulation model of the grid connected PV system has been designed in MATLAB 2018b version. The comparison studies are carried out in the PV system with and without hysteresis current controller, after which it can be concluded that, after the incorporation of the hysteresis current controller, the performance of the system is better in terms of power quality.
提高并网光伏系统电能质量的磁滞电流控制器的研制
由于化石燃料的减少和碳排放的增加,太阳能和风能等分布式发电的整合正在增加。太阳能光伏与电网的连接产生了许多集成问题,其中电能质量是一个重要因素。较高的光伏注入量会对配电网造成不良的技术影响,从而导致电能质量问题。本文研究了不同太阳能入网水平下光伏发电对公用电网电能质量的影响。通过快速傅立叶变换(FFT)分析,利用总谐波失真(THD)对电网的电能质量进行了研究。本文研究了升压变流器和并网逆变器控制器的开发,以最大限度地减少太阳能光伏系统和并网光伏系统中电源变流器产生的谐波。在并网光伏系统中设计并实现了升压变换器的最大功率点跟踪(MPPT)和逆变器的磁滞电流控制(HCC)。针对该逆变器的滞后电流控制器进行了专门设计,以降低满足IEEE519_1992规定的系统的THD。在MATLAB 2018b版本中设计了并网光伏系统的仿真模型。通过对安装和不安装迟滞电流控制器的光伏系统进行对比研究,得出在安装迟滞电流控制器后,系统在电能质量方面的性能更好。
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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来源期刊
International Journal of Electrical Engineering and Technology
International Journal of Electrical Engineering and Technology Energy-Energy Engineering and Power Technology
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