A Three-Phase Shunt Active Power Filter for Damping of Harmonic Propagation in Power Distribution Systems

S. Rahmani, Kamal Al-Haddad, F. Fnaiech
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引用次数: 35

Abstract

In recent years, harmonic resonance or harmonic propagation between line inductances and shunt capacitors installed for power factor correction, and so on has multiplied voltage and current harmonics in industrial power plants and utility power distribution systems. This paper presents a shunt active power filter to attenuate harmonic propagation resulting from series/parallel resonance between capacitors for power factor correction and line inductors in a power distribution line. The active power filter based on voltage detection is controlled in such a way as to present infinite impedance to the external circuit for the fundamental frequency, and as to exhibit low resistance for harmonic frequencies. When the active filter is installed on the end bus of the feeder, it successfully performs harmonic damping throughout the distribution line. Simulation results clarify that installation of the active filter acting as a harmonic terminator on the end bus of the feeder can damp out harmonic propagation throughout the feeder.
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一种用于抑制配电系统谐波传播的三相并联有源电力滤波器
近年来,在工业发电厂和公用配电系统中,由于功率因数校正而安装的线路电感和并联电容器之间的谐波共振或谐波传播,使电压和电流谐波成倍增加。本文提出了一种并联型有源电力滤波器,用于衰减配电线路中功率因数校正电容器与线路电感之间的串并联谐振所产生的谐波传播。基于电压检测的有源电力滤波器的控制方式是在基频处对外部电路呈现无限阻抗,在谐波频率处呈现低电阻。当有源滤波器安装在馈线末端母线上时,它成功地对整个配电线路进行了谐波阻尼。仿真结果表明,在馈线末端母线上安装有源滤波器作为谐波终止器可以抑制谐波在馈线中的传播。
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