基于并联有源电力滤波器 SAPF 和无源滤波器的三相四线混合有源电力滤波器,用于缓解 CFL 灯引起的谐波问题

Mohamed Hajjej, L. Sbita
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引用次数: 0

摘要

非线性负载在工业、商业和住宅环境中的广泛应用,大大加剧了当代配电系统中的电能质量问题。紧凑型荧光灯(CFL)就是此类非线性负载的一个例子,它是白炽灯(IL)的替代品。紧凑型荧光灯能耗低、寿命长,因此广受欢迎,在各种应用中得到广泛使用。但这些灯具会在电力系统中注入高谐波电流。为解决这一问题,本文在并联有源电力滤波器 SAPF 和无源滤波器 (PF) 的基础上实现了混合有源电力滤波器 HAPF。参考电流根据 PQ 理论进行计算,电压源逆变器 VSI 通过简单的滞后电流控制器 (HCC) 进行控制。结果表明,PF 适合补偿负载和 APF 开关设备产生的高次谐波。此外,该 HAPF 的设计和实施也很好,可以减轻 CFL 灯在电力系统中产生的所有谐波,并补偿无功功率。电流的总谐波失真从补偿前的 90.75% 降低到补偿后的 0.75%。这意味着主电源只注入了基波电流。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Three-Phase Four-Wire Hybrid Active Power Filter for Mitigating Harmonic Problems Caused by CFLs Lamps based on a Shunt Active Power Filter SAPF in Parallel with a Passive Filter
The widespread integration of nonlinear loads across industrial, commercial, and residential settings has significantly exacerbated power quality issues within contemporary power distribution systems. An example of such nonlinear loads is the prevalent use of compact fluorescent lamps (CFLs), intended as replacements for incandescent lamps (ILs). CFLs have gained popularity owing to their reduced energy consumption and extended lifespan, contributing to their extensive use across various applications. But those lamps inject high harmonic current in the power system. To address this issue, a hybrid active power filter HAPF based on a shunt active power filter SAPF in parallel with a passive filter (PF) is implemented in this paper. The reference current is calculated based on the PQ theory, and the voltage source inverter VSI is controlled via a simple hysteresis current controller (HCC). The results show that the PF is suitable to compensate for the Hight harmonic generated by both the load and the switched device of the APF. Also, this HAPF is well designed and implemented to mitigate all harmonic generated by CFL lamps on the power system, and compensate the reactive power. The THD of the current is reduced from 90.75% before compensation to 0.75% after compensation. This implies that the main injects only the Fundamental current to the power.
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